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NIGERIA Malaria Indicator Survey (MIS) 2010

Nigeria Malaria Indicator Survey [MIS8]

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Page 1: Nigeria Malaria Indicator Survey [MIS8]

NIGERIA

Malaria IndicatorSurvey (MIS) 2010

NIG

ERIA

2010

Ma

laria

Ind

icato

r Surve

y (MIS)

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Nigeria Malaria Indicator Survey

2010

Final Report

National Population Commission Federal Republic of Nigeria

Abuja, Nigeria

National Malaria Control Programme Federal Republic of Nigeria

Abuja, Nigeria

MEASURE DHS ICF International

Calverton, Maryland United States

January 2012

Government of Nigeria

Investing in our future

The Global FundTo Fight AIDS, Tuberculosis and Malaria

The World Bank

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The 2010 Nigeria Malaria Indicator Survey (2010 NMIS) was implemented by the National Population Commission (NPC) and the National Malaria Control Programme (NMCP) from October 2010 through December 2010. ICF International provided technical assistance through the MEASURE DHS programme, a project funded by the United States Agency for International Development (USAID), which provides support and technical assistance in the implementation of population and health surveys in countries worldwide.

Funding for the 2010 NMIS was provided by the NMCP, Global Fund [through the Society for Family Health (SFH) and Yakubu Gowon Centre (YGC)], World Bank, United Kingdom Department for International Development (DFID) [through the Support to Nigeria Malaria Programme (SuNMaP)], and USAID [through the MEASURE DHS programme at ICF International].

Additional information about the 2010 NMIS may be obtained from the headquarters of the National Population Commission, Plot 2031, Olusegun Obasanjo Way, Zone 7 Wuse, PMB 0281, Abuja, Nigeria; Telephone: (234) 09 523-9173; Fax: (234) 09 523-1024.

Information about the DHS programme may be obtained from the MEASURE DHS Project, ICF International, 11785 Beltsville Drive, Suite 300, Calverton, MD 20705, United States; Telephone: 301-572-0200; Fax: 301-572-0999; E-mail: [email protected]; Internet: http://www.measuredhs.com. Cover photos (left to right): © Dr. Abimbola G. Olayemi, National Malaria Control Programme (NMCP); © 2006 Alfredo L. Fort, Courtesy of Photoshare; © 2008 Margaret F. McCann, Courtesy of Photoshare; © 2008 Devon Golaszewski, Courtesy of Photoshare Recommended citation: National Population Commission (NPC) [Nigeria], National Malaria Control Programme (NMCP) [Nigeria], and ICF International. 2012. Nigeria Malaria Indicator Survey 2010. Abuja, Nigeria: NPC, NMCP, and ICF International.

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Contents | iii

CONTENTS

Page

TABLES AND FIGURES ................................................................................................................................v FOREWORD ............................................................................................................................................... vii PREFACE ....................................................................................................................................................... ix ACRONYMS ................................................................................................................................................. xi MAP OF NIGERIA ...................................................................................................................................... xii CHAPTER 1 INTRODUCTION 1.1 History, Geography, and Economy ..................................................................................................... 1

1.1.1 History ................................................................................................................................. 1 1.1.2 Geography ............................................................................................................................ 1 1.1.3 Economy .............................................................................................................................. 2

1.2 Background on Malaria in Nigeria ...................................................................................................... 2

1.2.1 Malaria Transmission............................................................................................................. 3 1.2.2 Strategic Direction for Malaria Control .................................................................................. 4 1.2.3 Long-Lasting Insecticidal Net Campaigns ............................................................................... 5 1.2.4 Sources of Malaria Data in Nigeria ........................................................................................ 8

1.3 Objectives of the 2010 Nigeria Malaria Indicator Survey ..................................................................... 8 1.4 Methodology of the Nigeria Malaria Indicator Survey ......................................................................... 9

1.4.1 Survey Organisation .............................................................................................................. 9 1.4.2 Sample Design .................................................................................................................... 10 1.4.3 Questionnaires ................................................................................................................... 11 1.4.4 Anaemia and Malarial Testing ............................................................................................. 11 1.4.5 Pretest Activities .................................................................................................................. 13 1.4.6 Training of Field Staff .......................................................................................................... 13 1.4.7 Data Collection ................................................................................................................... 14 1.4.8 Data Processing .................................................................................................................. 14

1.5 Response Rates ................................................................................................................................ 15 CHAPTER 2 CHARACTERISTICS OF HOUSEHOLDS 2.1 Population by Age and Sex .............................................................................................................. 17 2.2 Household Composition .................................................................................................................. 18 2.3 Household Environment .................................................................................................................. 19

2.3.1 Drinking Water ................................................................................................................... 19 2.3.2 Household Sanitation Facilities ............................................................................................ 20 2.3.3 Housing Characteristics ....................................................................................................... 21

2.4 Household Possessions ..................................................................................................................... 23 2.5 Wealth Index ................................................................................................................................... 24

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iv | Contents

CHAPTER 3 CHARACTERISTICS OF RESPONDENTS

3.1 General Characteristics of Women ................................................................................................... 27 3.2 Educational Attainment of Women ................................................................................................... 28 3.3 Literacy of Women .......................................................................................................................... 29 CHAPTER 4 KNOWLEDGE OF MALARIA AND FEVER MANAGEMENT

4.1 Women’s Knowledge of Malaria ....................................................................................................... 31 4.1.1 Knowledge of Malaria Symptoms ........................................................................................ 31 4.1.2 Knowledge of Causes of Malaria and Age Groups Most Likely to be Affected by Malaria ...... 32 4.1.3 Knowledge of Ways to Avoid Malaria .................................................................................. 33 4.1.4 Knowledge of Malaria Treatment ........................................................................................ 36

4.2 Exposure to Malaria Prevention Messages ......................................................................................... 38 4.3 Management of Fever among Children ............................................................................................. 39 4.4 Treatment of Fever among Household Members .............................................................................. 41 CHAPTER 5 MALARIA PREVENTION

5.1 Mosquito Nets ................................................................................................................................. 43 5.1.1 Background ........................................................................................................................ 43 5.1.2 Ownership of Mosquito Nets .............................................................................................. 43 5.1.3 Indoor Residual Spraying .................................................................................................... 47 5.1.4 Use of Mosquito Nets by Persons in the Household ............................................................. 48 5.1.5 Use of Mosquito Nets by Children under Age 5 ................................................................... 50 5.1.6 Use of Mosquito Nets by Women ....................................................................................... 52 5.1.7 Reasons for Not Using a Mosquito Net ................................................................................ 54

5.2 Intermittent Preventive Treatment of Malaria in Pregnancy ............................................................... 56 CHAPTER 6 ANAEMIA AND MALARIA IN CHILDREN

6.1 Anaemia and Malaria among Children ............................................................................................. 59 6.1.1 Anaemia Prevalence among Children .................................................................................. 60 6.1.2 Malaria Prevalence among Children .................................................................................... 62 6.1.3 Malaria Prevalence and Body Temperature among Children ................................................ 65 6.1.4 Malaria Species Identification .............................................................................................. 66

REFERENCES .............................................................................................................................................. 67 APPENDIX A SAMPLE IMPLEMENTATION ......................................................................................... 69 APPENDIX B ESTIMATES OF SAMPLING ERRORS ............................................................................ 73 APPENDIX C DATA QUALITY TABLES................................................................................................. 79 APPENDIX D PERSONS INVOLVED WITH THE 2010 NIGERIA MALARIA INDICATOR

SURVEY (NMIS) ............................................................................................................... 81 APPENDIX E QUESTIONNAIRES ......................................................................................................... 89

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Tables and Figures | v

TABLES AND FIGURES

Page

CHAPTER 1 INTRODUCTION Table 1.1 States covered by universal mass LLIN campaigns and the lead partners involved ................... 7 Table 1.2 Treatment for children with positive malaria test results on RDTs ......................................... 13 Table 1.3 Results of the household and individual interviews .............................................................. 15 Figure 1.1 Duration of Malaria Transmission Season .............................................................................. 3 Figure 1.2 Long-Lasting Insecticidal Net Campaign Scale Up .................................................................. 6 Figure 1.3 Map of LLIN Distribution Coverage ....................................................................................... 7 CHAPTER 2 CHARACTERISTICS OF HOUSEHOLDS Table 2.1 Household population by age, sex, and residence ............................................................... 17 Table 2.2 Household composition ...................................................................................................... 18 Table 2.3 Household drinking water ................................................................................................... 19 Table 2.4 Household sanitation facilities ............................................................................................. 20 Table 2.5 Household characteristics ................................................................................................... 22 Table 2.6 Household durable goods ................................................................................................... 24 Table 2.7 Wealth quintiles .................................................................................................................. 25 Figure 2.1 Population Pyramid ............................................................................................................ 18 CHAPTER 3 CHARACTERISTICS OF RESPONDENTS Table 3.1 Background characteristics of respondents ........................................................................... 27 Table 3.2 Educational attainment: Women ......................................................................................... 29 Table 3.3 Literacy: Women ................................................................................................................ 30 CHAPTER 4 KNOWLEDGE OF MALARIA AND FEVER MANAGEMENT Table 4.1 Knowledge of malaria symptoms ......................................................................................... 31 Table 4.2 Knowledge of causes of malaria and people most likely to be seriously affected by malaria .. 33 Table 4.3 Knowledge of ways to avoid malaria .................................................................................... 34 Table 4.4 Knowledge of ways pregnant women can prevent getting malaria ........................................ 35 Table 4.5 Knowledge of malaria treatment in adults and children ........................................................ 37 Table 4.6 Exposure to malaria prevention messages ............................................................................ 38 Table 4.7 Source of exposure to malaria prevention messages ............................................................. 39 Table 4.8 Prevalence, diagnosis, and prompt treatment of children with fever ..................................... 40 Table 4.9 Type and timing of antimalarial drugs taken by children with fever ...................................... 41 Table 4.10 Fever and treatment of fever among household members .................................................... 42

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vi | Tables and Figures

CHAPTER 5 MALARIA PREVENTION Table 5.1 Household possession of mosquito nets .............................................................................. 44 Table 5.2 Source and cost of mosquito nets ........................................................................................ 48 Table 5.3 Indoor residual spraying against mosquitoes ........................................................................ 47 Table 5.4 Source of indoor residual spraying by organization .............................................................. 48 Table 5.5 Use of mosquito nets by persons in the household .............................................................. 49 Table 5.6 Use of mosquito nets by children ........................................................................................ 50 Table 5.7 Use of mosquito nets by all women ..................................................................................... 53 Table 5.8 Use of mosquito nets by pregnant women ........................................................................... 54 Table 5.9 Reason for not using the net the night preceding the interview ............................................ 55 Table 5.10 Antenatal care .................................................................................................................... 56 Table 5.11 Prophylactic use of antimalarial drugs and use of intermittent preventive treatment (IPTp)

by women during pregnancy ............................................................................................... 58 Figure 5.1 Trends in Ownership of ITNs: Percent of Households with at Least One ITN ....................... 44 Figure 5.2 Differentials in the Household Ownership of ITNs ............................................................... 45 Figure 5.3 Differentials in ITN Usage among Children Under Age Five ................................................. 51 Figure 5.4 Trends in Net Use among Children Under Age Five ............................................................. 52 CHAPTER 6 ANAEMIA AND MALARIA IN CHILDREN Table 6.1 Coverage of testing for anaemia and malaria in children ...................................................... 60 Table 6.2 Prevalence of anaemia in children ....................................................................................... 61 Table 6.3 Malaria prevalence in children ............................................................................................ 63 Table 6.4 Fever prevalence among children with and without malaria body temperature (axillary) ....... 65 Table 6.5 Malaria species ................................................................................................................... 66 Figure 6.1 Malaria Prevalence among Children 6-59 Months by Residence and Zone (according to

Microscopy) ........................................................................................................................ 64 Figure 6.2 Malaria Prevalence among Children 6-59 Months by Mother’s Education and Wealth

Quintile (according to Microscopy) ..................................................................................... 64 APPENDIX A SAMPLE IMPLEMENTATION Table A.1 Sample allocation of clusters and households ...................................................................... 70 Table A.2 Sample implementation ...................................................................................................... 71 APPENDIX B ESTIMATES OF SAMPLING ERRORS Table B.1 List of selected variables for sampling errors, Nigeria MIS 2010 ............................................ 75 Table B.2 Sampling errors for National sample, Nigeria MIS 2010 ....................................................... 75 Table B.3 Sampling errors for Urban sample, Nigeria MIS 2010 .......................................................... 75 Table B.4 Sampling errors for Rural sample, Nigeria MIS 2010 ............................................................ 76 Table B.5 Sampling errors for North Central sample, Nigeria MIS 2010 ............................................... 76 Table B.6 Sampling errors for North East sample, Nigeria MIS 2010 .................................................... 76 Table B.7 Sampling errors for North West sample, Nigeria MIS 2010 .................................................. 77 Table B.8 Sampling errors for South East sample, Nigeria MIS 2010 .................................................... 77 Table B.9 Sampling errors for South South sample, Nigeria MIS 2010 .................................................. 77 Table B.10 Sampling errors for South West sample, Nigeria MIS 2010 ................................................... 78 APPENDIX C DATA QUALITY TABLES Table C.1 Household age distribution ................................................................................................. 79 Table C.2 Age distribution of eligible and interviewed women ............................................................. 80

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Foreword | vii

FOREWORD

Recent malaria control efforts have received a huge boost of support with an influx of resources in the drive to massively scale up all interventions for evident impact. To justify these resources, it was imperative that we have evidence-based data to determine the effect that malaria control interventions have had on the huge burden of the disease in Nigeria. In addition, there is a need to determine where the country stands as a baseline for the full implementation of the 2009-2013 National Strategic Plan for Malaria Control in Nigeria. The targets are: (1) 100 percent household ownership and 80 percent use of long-lasting insecticidal nets (LLINs) by children under the age of 5 and by pregnant women; (2) 80 percent of persons with malaria accessing prompt and effective treatment; and (3) 100 percent of pregnant women attending antenatal care (ANC) clinics to receive at least two doses of intermittent preventive treatment (IPT).

The 2008 NDHS data shows that household ownership of ITNs was 8 percent, and ITN use by children under age 5 was 6 percent, while use by pregnant women was 5 percent. The proportion of children with fever who received appropriate treatment with artemisinin-based combination therapy (ACT) was found to be 2 percent, and the proportion of pregnant women who received IPT, that is, two or more doses of sulphadoxine-pyrimethamine (SP) with at least one dose provided during an ANC visit, was 5 percent. However, between 2008 and 2010, more than 24 million LLINs have been distributed through mass campaigns in 14 states, and more than 45 million doses of ACTs have been deployed. This underscores the importance of this survey, which provides more up-to-date information on the progress of malaria interventions in Nigeria and the impact of these interventions.

A previous effort was made to carry out a similar survey in 2005 to evaluate the implementation of 2001-2005 Country Strategic Plan. However, that survey did not capture laboratory/malariometric measurements critical to establishing malaria prevalence rates at the national and zonal levels that serve as an impact indicator directly tied to malaria control interventions. Many of the frequently quoted prevalence rates for malaria were derived from localised household or health facility-based surveys which are not nationally representative. The 2010 NMIS fills a this gap by providing the baseline malaria prevalence rates that can be compared to future national and zonal prevalence estimates to evaluate progress towards reducing malaria prevalence in Nigeria.

The standardized MIS tools and outputs also provide a strategic opportunity to compare the malaria burden and control effort across regional and national boundaries, and demonstrate variations and changes in patterns across recognized transmission zones, making it a valuable tool in monitoring changing transmission patterns.

The Federal Ministry of Health, in collaboration with its Roll Back Malaria partners, commissioned the National Population Commission to conduct the survey, alongside the National Malaria Control Programme, with technical assistance from ICF International. I would like to use this opportunity to thank all our partners who have committed funds to this venture including the World Bank, USAID, Global Fund to Fight AIDS, TB, and Malaria (GFATM), and United Kingdom Department for International Development (DFID). Other partners such as WHO, Society for Family Health, The Carter Center, and Yakubu Gowon Centre, who have put other forms of resources into the planning and implementation of the 2010 NMIS are also appreciated. My special appreciation also goes to the National Population Commission for bringing their experience and expertise to bear on the implementation of this survey.

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viii | Foreword

There is no doubt that the results of the 2010 Malaria Indicator Survey will go a long way in providing the needed evidence for future planning, review of the national strategic plan, and re-programming where necessary.

Professor C.O. Onyebuchi Chukwu Honourable Minister of Health

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Preface | ix

PREFACE

The availability and documentation of detailed information required for articulating and evaluating policy implementation is critical to the achievement of meaningful national development. The provision of reliable, accurate, and current data for Nigeria has been at the centre stage of the activities of the National Population Commission (NPC), which is constitutionally charged with the responsibility to gather and analyze demographic data.

Commissioned by the National Malaria Control Programme (NMCP), the 2010 Nigeria Malaria Indicator Survey (NMIS) was implemented by the NPC, NMCP and other Roll Back Malaria partners. Primary objectives of the survey were to provide information on malaria indicators and malaria prevalence at national and zonal levels. The survey, the first of its kind to be conducted in all 36 states and the Federal Capital Territory (FCT) of Nigeria, covers topics such as background characteristics (age, residence, education, media exposure, and literacy), birth history, childhood mortality, antenatal care and malaria prevention during pregnancy for most recent births, malaria prevention and treatment, and knowledge about malaria (symptoms, causes, prevention, and drugs used in treatment). Information was collected from all women age 15-49 in selected clusters.

I wish to thank the NPC Chairman and Federal Commissioners for the support they offered during the implementation period by providing the required leadership and advocacy. The support provided by Dr. W. D. C. Wokoma (immediate past Director-General), Dr. Emmanuel Enu Attah (Director, Planning and Research) and others is hereby acknowledged.

The strategic guidance offered by members of the Survey Management Committee (SMC) chaired by Dr. Jide Coker, NMCP National Coordinator, ensured an adequate level and distribution of funding and is highly acknowledged. Similarly, the dedication of members of the Survey Implementation Committee (SIC) through outstanding and enthusiastic management of the technical, administrative, and logistical phases of the survey is gratefully acknowledged. The survey would not have been a success without the able leadership of Mr. Sani Ali Gar (Project Director/SIC Chair) and the support of Dr. Oresanya Olusola (SIC Vice Chair) and Mr. Inuwa Bakari Jalingo (Project Coordinator). The untiring efforts of other members of the SIC who also served as coordinators is highly commended. I wish to express appreciation to ICF International for their technical assistance at all stages of the survey and for their continued choice of NPC for collaboration.

Special gratitude goes to the supervisors, interviewers, nurses, laboratory scientists, and drivers for their tireless efforts. The commitment of the entire field staff of the 2010 NMIS to ensuring a successful conduct of the survey is commendable. Similarly, for their important role in the timely processing of the data, the data processing team is commended.

The success of the 2010 NMIS was also made possible by the support and collaboration of a number of organisations and individuals. In this regard, I wish to acknowledge the financial support provided by the NMCP, Global Fund [through the Society for Family Health (SFH) and the Yakubu Gowon Centre (YGC)], World Bank, United Kingdom Department for International Development (DFID) [through the Support to Nigeria Malaria Programme (SuNMaP)], and USAID [through the MEASURE DHS programme at ICF International].

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x | Preface

Finally, our appreciation goes to all the households and respondents who participated in the survey; without their participation and support, the much needed data for planning purposes would not have been collected

Jamin Dora Zubema Director General, National Population Commission, Abuja November 2011

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Acronyms | xi

ACRONYMS

ACT Artemisinin-Based Combination Therapy ANC Antenatal Care CSPro Censuses and Surveys Processing EA Enumeration Area FCT Federal Capital Territory FMoH Federal Ministry of Health GPS Global Positioning System ICF Inner City Fund IPT Intermittent Preventive Treatment ITN Insecticide-Treated Net LGA Local Government Area NMCP National Malaria Control Programme NMIS Nigeria Malaria Indicator Survey NPC National Population Commission NDHS Nigeria Demographic and Health Survey PSU Primary Sampling Unit RDT Rapid Diagnostic Test SFH Society for Family Health SP Sulfadoxine-Pyrimethamine TFR Total Fertility Rate UNAIDS Joint United Nations Programmes on HIV and AIDS UNDP United Nations Development Program UNFPA United Nations Population Fund UNICEF United Nations Children’s Fund UNU United Nations University USAID United States Agency for International Development WHO World Health Organization YGC Yakubu Gowon Centre

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xii | Map of Nigeria

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Introduction | 1

INTRODUCTION 1

1.1 HISTORY, GEOGRAPHY, AND ECONOMY

1.1.1 History

Nigeria came into existence as a nation-state in 1914 through an amalgamation of the Northern and Southern protectorates. Prior to that time, there were separate cultural, ethnic, and linguistic groups, such as the Oyo, Benin, Nupe, Jukun, Kanem-Bornu, and Hausa-Fulani. These peoples lived in kingdoms and emirates with traditional but sophisticated systems of government. Other relatively small—but strong and resistant—ethnic groups included the Igbo, Ibibio, and Tiv.

The British established a crown colony type of government. The affairs of the colonial administration were conducted by the British until 1942, when a few Nigerians became involved in the administration of the country. During the early 1950s, Nigeria achieved partial self-government with a legislature. The majority of its legislative members were elected into an executive council consisting mostly of Nigerians. Nigeria became fully independent in October 1960 as a federation of three regions (Northern, Western, and Eastern) under a constitution that provided for a parliamentary system of governance. The Lagos area became the Federal Capital Territory (FCT).

On October 1, 1963, Nigeria became a republic. Distinct administrative structures, social groups, and cultural traits reflect the diverse behaviour and background of the people. There are about 374 identifiable ethnic groups, of which the major ones are the Igbo, Hausa, and Yoruba.

Today, Nigeria consists of 36 states and a Federal Capital Territory.1 The states and federal area are grouped into six zones: North Central, North East, North West, South East, South South, and South West. There are also 774 constitutionally recognised local government areas (LGAs) in the country.

1.1.2 Geography

Nigeria is in the West African sub-region, lying between latitudes 4º16' and 13º53' north and longitudes 2º40' and 14º41' east. It is bordered by Niger in the north, Chad in the northeast, Cameroon in the east, and Benin in the west. To the south, Nigeria is bordered by approximately 850 kilometres of the Atlantic Ocean, stretching from Badagry in the west to the Rio del Rey in the east. With a total land area of 923,768 square kilometres, Nigeria is the fourteenth largest country in Africa.

Nigeria is diverse in climate and topography, encompassing uplands (600 to 1,300 metres in the North Central zone), east highlands, and lowlands (less than 20 metres in the coastal areas). Additional lowlands extend from the Sokoto plains to the Borno plains in the North, the coastal lowlands in western Nigeria, and the Cross River basin in the East. The highland areas include the Jos, Plateau, and Adamawa highlands in the North, which extend down to the Obudu Plateau and Oban Hills in the South East. Other topographic features include the Niger-Benue Trough and Chad Basin.

Nigeria has a tropical climate. Wet and dry seasons are associated with the movement of the two dominant winds—the rain-bearing southwesterly winds and the cold, dry, and dusty northeasterly winds, commonly referred to as the Harmattan. The dry season occurs from October to March, with a spell of

1 The FCT was moved from Lagos to Abuja in 1991.

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2 | Introduction

coolness accompanied by the dry, dusty Harmattan wind, felt mostly in the North in December and January. The wet season occurs from April to September. The temperature in Nigeria oscillates between 25°C and 40°C, and rainfall ranges from 2,650 millimetres in the southeast to less than 600 millimetres in some parts of the north, mainly on the fringes of the Sahara Desert. The vegetation that results from these climatic differences consists of mangrove swamp forest in the Niger Delta and Sahel grassland in the north. Nigeria has a wide range of climatic, vegetation, and soil conditions, allowing potential for a wide range of agricultural production.

1.1.3 Economy

Agriculture has traditionally been the mainstay of Nigeria’s economy. At the time of the country’s independence, more than 75 percent of the country’s formal labour force was engaged in agriculture, which also provided a satisfactory livelihood to more than 90 percent of the population. With the discovery of oil, petroleum usurped the dominant role of agriculture in the economy, especially in the country’s foreign exchange earnings. By 2006, the contribution of agriculture to gross domestic product (GDP) was 32.5 percent, compared with 38.8 percent for oil and gas combined. Oil and gas now dominate the economy, contributing 99 percent of export revenues and 78 percent of government revenues. Within the non-oil sector, agriculture still plays a significant role, followed by industry, services, and wholesale/retail trade. Significant exports of liquefied natural gas commenced in late 1999, and these are slated to expand as Nigeria works to eliminate gas flaring.

The Nigerian financial system, which is critical to the domestic economy, remains relatively stable. Overall macroeconomic performance was satisfactory in 2010. Reforms in the banking sector, particularly in 2010, have weeded out weak institutions and restored eroding consumer confidence. Since the arrival of the democratic administration in 1999, economic policies have become more favourable to investment. Progress has been made toward establishing a market-based economy. Consequently, performance of the domestic economy has improved. Nigeria’s GDP growth rate was estimated at 2.7 percent in 1999. This increased to 6.6 percent in 2004, declined slightly to 6.5 in 2005, 6.0 in 2006, and rose again to 6.5 percent in 2007. By 2010 the real GDP growth rate was estimated at 7.9 percent (Central Bank of Nigeria, 2011).

Before the advent of the civilian administration in 1999, Nigeria had a large public sector, comprised of more than 550 public enterprises in most sectors of the economy. The democratically-elected civilian administration recognised the importance of privatisation in the restructuring of the economy. A number of policies were put in place to liberalise, deregulate, and privatise key sectors of the economy, such as electricity, telecommunications, and downstream petroleum sectors. In recent years, Nigeria privatised the only government-owned petrochemical company and sold its interest in eight oil service companies. Although it may be too early to determine the full impact of privatisation and liberalisation on the Nigerian economy, it is believed that these economic policy reforms, combined with investments in human resources and physical infrastructure, as well as the establishment of macroeconomic stability and good governance, are essential to achieve a high rate of self-sustaining, long-term economic growth.

1.2 BACKGROUND ON MALARIA IN NIGERIA

Nigeria bears up to 25 percent of the malarial disease burden in Africa, hence contributing significantly to the one million lives lost per year in the region, which mostly consists of children and pregnant women. Malaria in Nigeria is endemic and constitutes a major public health problem despite the curable nature of the disease. Malaria-related deaths account for up to 11 percent of maternal mortality. Additionally, they contribute up to 25 percent of infant mortality and 30 percent of under-5 mortality, resulting in about 300,000 childhood deaths annually. The disease overburdens the already-weakened

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Introduction | 3

health system: nearly 110 million clinical cases of malaria are diagnosed each year, and malaria contributes up to 60 percent of outpatient visits and 30 percent of admissions. Malaria also exerts a huge social and economic burden on families, communities, and the country at large, causing an annual loss of about 132 billion Naira2 in payments for treatment and prevention as well as hours not worked (Jimoh et al., 2007).

1.2.1 Malaria Transmission

The geographic location of Nigeria makes the climate suitable for malaria transmission throughout the country. It is estimated that up to 97 percent of the country’s more than 150 million people risk getting the disease. The remaining 3 percent of the population who live in the mountains in southern Jos (the Plateau State) at an altitude ranging from 1,200 to 1,400 metres, are at relatively low risk for malaria.

The seasonality, intensity, and duration of the malaria transmission season vary according to the five ecological strata that extend from the South to the North. These include (1) mangrove swamps, (2) rain forest, (3) guinea-savannah, (4) Sudan-savannah, and (5) Sahel-savannah. The duration of the season decreases as one moves from the South to the North (Figure 1.1), being perennial in duration in most of the South but lasting three months or less in the northeastern region bordering Chad.

Figure 1.1 Duration of Malaria Transmission Season

2 1 USD = 152 Nigerian Naira

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4 | Introduction

The dominant vector species in Nigeria are the Anopheles gambiae species and the A. funestus group with some other species playing a minor or local role: A. moucheti, A. nili, A. pharaoensis, A. coustani, A. hancocki. and A. longipalpis. Within the A. gambiae complex, A. gambiae is the dominant species, with A. arabiensis being found most often in the North and A. melas only found in the mangrove coastal zone. A summary of the entomological inoculation rates (EIRs) reported in 86 studies from Nigeria suggests that rates for A. gambiae species ranges from 18 to 145 infective bites per person per year and for A. funestus from 12 to 54 infective bites per person per year (NMCP-FMoH, 2009).

The most prevalent species of malaria parasites in Nigeria is Plasmodium falciparum (> 95 percent). It is responsible for the most severe forms of the disease. The other types found in the country, Plasmodium ovale and Plasmodium malariae, play a minor role. Plasmodium malariae is commonly isolated from children with mixed infections.

1.2.2 Strategic Direction for Malaria Control

Nigeria was one of the countries included in the World Health Organization’s (WHO’s) first large-scale multilateral initiative for malaria control between 1955 and 1969. The initiative, known as the Malaria Eradication Programme, relied on massive indoor residual spraying of dichloro-diphenyl-trichloroethane (DDT). Although the goal was the complete eradication of malaria globally, it only succeeded in eliminating the disease from some regions, including southern Europe, the former USSR, and some countries of North Africa and the Middle East (Alilio et al., 2004).

Over the years, the strategies for malaria control have evolved. In 2000, Nigeria joined a league of other African countries to sign the Declaration and Plan of Action to halve the burden of the disease by the year 2010 through:

• prompt diagnosis and treatment with effective medicines

• distribution of insecticide-treated nets (ITNs) to achieve coverage of populations at risk (especially children under age 5 and pregnant women)

• indoor residual spraying (IRS) to curtail transmission

• prevention of malaria in pregnancy through intermittent preventive treatment

Nigeria has since implemented two strategic plans that prioritise the most biologically vulnerable groups: the first covering the period 2001-2005 and the second, which was originally planned to cover the period 2006-2010. In 2008, however, the strategic plan for 2006-2010 was revised to cover the 2009-2013 period to respond to the new global direction of malaria control efforts—which called for scaling up interventions not only among the biologically vulnerable groups but also among all populations at risk for malaria. The 2009-2013 National Strategic Plan for Malaria Control (NSPMC) in Nigeria was developed by the National Malaria Control Programme (NMCP), the Roll Back Malaria (RBM) partners, state and local government health authorities, and other stakeholders. This plan draws from the overall National Health Strategic Plan of the Federal Ministry of Health and addresses developmental priorities such as the RBM and Millennium Development Goals (MDGs).

The goal of the plan is to reduce by 50 percent the malaria-related morbidity and mortality in Nigeria by 2013 and to minimise the socioeconomic impact of the disease.

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Introduction | 5

The overall objectives for 2009-2013 are

• To nationally scale up for impact (SUFI) a package of interventions, which include appropriate measures to promote positive behaviour change, prevention, and treatment of malaria

• To sustain and consolidate these efforts in the context of a strengthened health system, and to create the basis for the future elimination of malaria in the country.

The specific targets for malaria control during the five-year period (2009-2013) are

• To reduce malaria-related mortality by 50 percent by 2013. (This translates into an under-5 mortality rate reduction from 207 deaths per 1,000 live births in 2000 to 176 deaths per 1,000 live births in 2010, and 158 deaths per 1,000 live births in 2013.)

• To reduce malaria parasite prevalence in children under age 5 by 50 percent by the year 2013 compared with a baseline prevalence of 38 percent in 2007

• To increase net ownership to at least 80 percent of households [with two or more insecticide-treated nets (ITNs) and long-lasting insecticidal nets (LLINs)] by 2010 and to sustain this level until 2013

• To expand and sustain net usage (the percentage sleeping under an ITN) to at least 80 percent of children under age 5 and to pregnant women by 2010 and to sustain the coverage until 2013

• To introduce and scale up indoor residual spraying (IRS) to national household coverage of 8 percent in selected areas by 2010 and to 20 percent by 2013 as a complementary target to the ITN target, and to ensure at least 85 percent of targeted structures are sprayed with an adequate quality of chemicals

• To increase diagnostic malaria testing by 2013 to at least 80 percent of patients age 5 and older who come to health facilities to seek treatment for fever or malaria

• To increase appropriate and timely treatment (according to the national treatment guidelines for fever or malaria) of all patients who seek treatment for fever or malaria in health facilities to at least 80 percent by 2013

• To increase the coverage of pregnant women who receive at least two doses of intermittent preventive treatment (IPT) to 100 percent of pregnant women attending antenatal care (ANC) by 2013

1.2.3 Long-Lasting Insecticidal Net Campaigns

Integrated vector management (IVM), which includes the use of ITNs, indoor residual spraying (IRS), and environmental management, is a part of the multi-pronged strategies for malaria control in Nigeria. Several interventions have targeted specific areas within states, or throughout selected states, to distribute ITNs and long-lasting insecticidal nets (LLINs) for pregnant women and children under age 5.

One of the LLIN distribution campaigns is the World Bank Booster Project, which commenced in May 2007 with the procurement of 1.8 million LLINs that were distributed through collaborations with the Expanded Programme on Immunisation (EPI). The goal of the World Bank Booster Project is to boost malaria control over five years (2007-2011) in seven selected states—Anambra, Akwa Ibom, Bauchi,

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Gombe, Jigawa, Kano, and Rivers states. The criteria for selection of the states included the following: (1) under-5 mortality rates exceeding 260 deaths per 1,000 live births; (2) documented Plasmodium falciparum resistance to chloroquine and sulphadoxine-pyrimethamine (SP) exceeding 85 percent; (3) demonstration of commitment by the state to implement large-scale campaigns to cut child mortality and/or a comprehensive malaria booster programme, and (4) the absence of other significant donor aid for malaria control in the state.

Nigeria adopted two strategies for the deployment of LLINs in the 2009-2013 NSPMC ‘catch-up’ and ‘keep up’ distribution campaign. The catch-up phase of the distribution is aimed at rapidly scaling up ownership of the nets through mass LLIN campaigns for universal coverage, and the keep-up phase is to maintain the coverage attained during the catch up through routine distribution of LLINs. Figure 1.2 further details the two phases.

Figure 1.2 Long-Lasting Insecticidal Net Campaign Scale Up

Replacement and population growth—keep up

Rapid scale-up—catch up

The two phases of LLIN implementation

The three major channels for LLIN distributions

Public Sectorfree LLINs

● Mass campaigns(integrated or stand-alone)

● Routine distribution(ANC & EPI services)

Commercial Sectorsubsidised orat cost LLINs

● Retail market● Institutional sales● Local production

Civil Societyfree or subsidised LLINs

● Mass campaigns● Community-based

distributions for ‘mop up’

The implementation of the catch-up strategy has involved house-to-house distribution of net cards, which entitles every household to at least two LLINs. This strategy was meant to deliver over 63 million nets to the Nigerian population by the end of 2010. However, by October 2010 when data collection for the NMIS commenced, about 24 million LLINs had been distributed in 14 of the 36 states and the Federal Capital Territory. By the end of the year (between November and December 2010), three more states had been covered with another five million nets, bringing the total for the year to about 29 million nets across 17 states. Table 1.1 below shows the states covered by the campaigns and the lead partners responsible for these campaigns.

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Table 1.1 States covered by universal mass LLIN campaigns and the lead partners involved

State Lead Partner

Adamawa UNICEF Akwa Ibom World Bank Anambra World Bank Bauchi World Bank Ekiti Global Fund-National Malaria Control Programme (NMCP) Gombe World Bank Jigawa World Bank Kaduna UNICEF/Global Fund Kano World Bank Katsina Global Fund-NMCP1 Kebbi Global Fund-Yakubu Gowon Centre (YGC) Nasarawa Global Fund-NMCP1 Niger Global Fund-Society for Family Health (SFH) Ogun Global Fund-Society for Family Health (SFH) Plateau Global Fund-NMCP1 Rivers World Bank Sokoto UNICEF/Global Fund

Source: NMCP, Strategy 20091 Covered in November/December 2010, after the data collection for the 2010 NMIS

Figure 1.3 Map of LLIN Distribution Coverage

Niger

Borno

Yobe

Taraba

Bauchi

Oyo

Kogi

Kebbi

Kaduna

Kwara

Edo

Benue

Sokoto

Zamfara Kano

Adamawa Plateau

Jigawa

Delta

Katsina

Ogun Ondo

Nasarawa

Gombe

Cross River

FCT

Rivers

Osun

Imo

Ekiti

Bayelsa

Enugu

Abia

Ebonyi Lagos

Akwa Ibom

Anambra

Covered by LLIN campaign

Not covered by LLIN campaign

Other LLIN distribution campaigns include government programmes that have distributed millions of LLINs to increase net coverage levels. Global Fund Malaria Grants have also allowed distribution of more than 4 million LLINs in 18 states between 2007 and 2009. Various net distribution campaigns exist in Nigeria. Throughout this report, some malaria indicator data are presented according to World Bank Booster Programme states, states with other LLIN campaigns, and states without LLIN campaigns.

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1.2.4 Sources of Malaria Data in Nigeria

Routine malaria case reporting

In Nigeria, morbidity and mortality are measured through routine reports from health facilities through the malaria-specific and Health Management Information System (HMIS). However, the majority of malaria cases and deaths are not reported through health facilities. Moreover, most malaria cases registered in the private health facilities are not included in these data. Therefore, these data give an incomplete and under-represented picture of the true malaria burden in the country.

Sentinel sites for RBM activities

There are 14 malaria sentinel sites in the country, primarily set up for drug resistance and efficacy monitoring. The sentinel sites are being strengthened to generate routine surveillance data, including outpatient malaria morbidity; laboratory-confirmed cases of malaria based on positive smears and rapid diagnostic tests (RDTs); parasite densities; and antimalarial usage. This is in addition to the periodic drug therapeutic efficacy trials conducted at these sites to monitor drug resistance.

Health facility surveys

Health facility surveys employ tools and approaches developed to evaluate malaria control activities, particularly in the African region, using the Integrated Management of Childhood Illnesses (IMCI) instrument. These surveys assess health facilities, including the clinical skills of health care personnel, availability of supplies and equipment, inpatient clinical practices, dispensaries or pharmacy services, and the Health Information Systems (HIS). The advantage of using the IMCI instrument is that it addresses the integrated management of the sick child, including the treatment of malaria.

Nigeria also obtains data on childhood illnesses from the National Programme on Immunisation (NPI) and the Integrated Disease Surveillance and Response (IDSR) systems for the health facility surveys. Health facility surveys provide a broader range of information than the routine HMIS does.

Population-based surveys

Population-based surveys complement facility-based malaria data by providing strategic information to guide programmes. The Demographic and Health Surveys (DHS) and Multiple Indicator Cluster Surveys (MICS) are based on nationally representative household samples that give national and subnational estimates of a range of demographic, health, and population indicators. Population-based surveys conducted in Nigeria include the 1990, 1999, 2003, and 2008 NDHS surveys; the 2005 Mid-term Evaluation Survey; the 2007 MICS survey; the 2007 Insecticide-Treated Nets Survey; the 2008 Health Facility Assessment; and the Monitoring Survey for the Malaria Control Booster Project, which used the Lots Quality Assurance Sampling (LQAS) methodology and was conducted in 2006 and 2010.

These surveys provide important data on malaria, including information on household ownership and use of mosquito nets, indoor residual spraying, intermittent preventive treatment for pregnant women, and treatment of childhood fever.

1.3 OBJECTIVES OF THE 2010 NIGERIA MALARIA INDICATOR SURVEY

The 2009-2013 National Strategic Plan for Malaria Control in Nigeria aims to massively scale up malaria control interventions in parts of the country. The 2010 Nigeria Malaria Indicator Survey (NMIS) was, therefore, designed to measure progress toward achieving the goals and targets of this strategic plan by providing data on key malaria indicators, including ownership and use of bed nets, diagnosis and

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prompt treatment of malaria using artemisinin-based therapy (ACT), indoor residual spraying, and behaviour change communication.

The following are the specific objectives of the 2010 NMIS:

• To measure the extent of ownership and use of mosquito bed nets

• To assess the coverage of intermittent and preventive treatment programmes for pregnant women

• To identify practices used to treat malaria among children under age 5 and the use of specific antimalarial medications

• To measure the prevalence of malaria and anaemia among children age 6-59 months

• To determine the species of plasmodium parasite most prevalent in Nigeria

• To assess knowledge, attitudes, and practices regarding malaria in the general population

1.4 METHODOLOGY OF THE NIGERIA MALARIA INDICATOR SURVEY

The 2010 Nigeria Malaria Indicator Survey (NMIS) was commissioned by the National Malaria Control Programme (NMCP) and implemented by the National Population Commission (NPC) and other Roll Back Malaria partners. It was carried out from October to December 2010 on a nationally representative sample of more than 6,000 households. All women age 15-49 in the selected households were eligible for individual interviews. During the interviews, they were asked questions about malaria prevention during pregnancy and the treatment of fever among their children. In addition, the survey included testing for anaemia and malaria among children age 6-59 months using finger (or heel) prick blood samples. Test results were available immediately and were provided to the children’s parents or guardians. Thick blood smears and thin blood films were also made in the field and transported to the Department of Medical Microbiology and Parasitology at the College of Medicine, University of Lagos. Microscopy was performed to determine the presence of malaria parasites and to identify the parasite species. Slide validation was carried out by the University of Calabar Teaching Hospital in Calabar.

As mentioned previously, the primary objectives of the 2010 NMIS project are to provide information on malaria indicators and malaria prevalence, both for the nation and for each of the country’s six geopolitical zones. The 2010 NMIS is the first malaria indicator survey to conduct rapid diagnostic testing and to collect and evaluate thick blood smears and thin blood films at the household level in a nationally representative survey. Additionally, the 2010 NMIS represents the first malaria indicator survey conducted in all states and in the Federal Capital Territory (FCT) in Nigeria. The 2005 Mid-term Evaluation Survey designed to assess the Abuja targets covered only two randomly selected states in each zone, therefore spanning only 12 states (Oresanya et al., 2008).

1.4.1 Survey Organisation

A national Survey Management Committee (SMC), with members from the Roll Back Malaria partnership and a chair from the NMCP, provided strategic guidance and decision-making authority for the NMIS survey. The SMC developed a memorandum of understanding, signed by all implementing partners and agencies funding the survey, and ensured that the survey protocol was approved by the Nigeria Health Research Ethics Committee of the Federal Ministry of Health.

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The Survey Implementation Committee (SIC) was responsible for the implementation of the 2010 NMIS. It consisted of eight members, with a NPC member serving as the chair and a NMCP member serving as vice-chair. More specifically, the SIC was responsible for recruitment, training, and monitoring of field staff, finalisation of survey instruments and tools, and general administrative management of the survey, including provision of maps and lists of households in selected clusters and oversight of day-to-day operations.

Technical assistance was provided by ICF International. ICF International staff assisted with overall survey design, sample design, questionnaire design, field staff training, field work monitoring, collection of biomarkers (anaemia testing, rapid diagnostic testing for malaria, and making and reading blood smears), data processing, data analysis, and report preparation.

1.4.2 Sample Design

The sample for the 2010 NMIS was designed to provide most of the key malaria indicators for the country as a whole, for urban and rural areas separately, and for each of the six zones formed by grouping the 36 states and the Federal Capital Territory (FCT). The zones are as follows:

1. North Central: Benue, FCT—Abuja, Kogi, Kwara, Nasarawa, Niger, and Plateau

2. North East: Adamawa, Bauchi, Borno, Gombe, Taraba, and Yobe

3. North West: Jigawa, Kaduna, Kano, Katsina, Kebbi, Sokoto, and Zamfara

4. South East: Abia, Anambra, Ebonyi, Enugu, and Imo

5. South South: Akwa Ibom, Bayelsa, Cross River, Delta, Edo, and Rivers

6. South West: Ekiti, Lagos, Ogun, Ondo, Osun, and Oyo

The sampling frame used for the 2010 NMIS came from the 2006 Population and Housing Census of the Federal Republic of Nigeria, which was conducted in 2006 by NPC. Administratively, Nigeria is divided into states. Each state is subdivided into local government areas (LGAs), and each LGA is divided into localities. In addition to these administrative units, during the 2006 Population Census, each locality was subdivided into convenient areas called census enumeration areas (EAs). Nigeria has 36 states and a Federal Capital Territory, making a total of 37 states for the purposes of the sampling frame. The primary sampling unit (PSU), referred to as a cluster for the 2010 NMIS, is defined on the basis of EAs from the 2006 EA census frame. The 2010 NMIS sample was selected using a stratified, two-stage cluster design consisting of 240 clusters, 83 in the urban areas and 157 in the rural areas. (The final sample included 239 clusters because access to one cluster was prevented by inter-communal disturbances.) A representative sample of approximately 6,000 households was selected for the survey, with a minimum target of 920 completed individual women’s interviews per zone. Within each state, the number of households was distributed proportionately among urban and rural areas.

A complete listing of households was conducted, and a mapping exercise for each cluster was carried out from August through September 2010. The lists of households resulting from this exercise served as the sampling frame for the selection of households in the second stage. In addition to listing the households, the NPC listing enumerators used global positioning system (GPS) receivers to record the coordinates of the 2010 NMIS sample clusters.

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In the second stage of the selection process, an average number of 26 households was selected in each cluster by equal probability systematic sampling. All women age 15-49 who were either permanent residents of the households in the 2010 NMIS sample or visitors present in the households on the night before the survey were eligible to be interviewed. In addition, all children age 6-59 months were eligible to be tested for malaria and anaemia.

1.4.3 Questionnaires

Two questionnaires were used in the NMIS: a Household Questionnaire and a Woman’s Questionnaire, which was administered to all women age 15-49 in the selected households. Both instruments were based on the standard Malaria Indicator Survey Questionnaires developed by the Roll Back Malaria and DHS programmes. These questionnaires were adapted to reflect the population and health issues relevant to Nigeria during a series of meetings convened with various stakeholders from the NMCP and other government ministries and agencies, nongovernmental organisations, and international donors. The questionnaires were translated into three major Nigerian languages: Hausa, Igbo, and Yoruba.

The Household Questionnaire was used to list all the usual members and visitors in the selected households. Some basic information was collected on the characteristics of each person listed, including age, sex, and relationship to the head of the household. The main purpose of the Household Questionnaire was to identify women who were eligible for the individual interview and children age 6-59 months who were eligible for anaemia and malaria testing. The Household Questionnaire also collected information on characteristics of the household’s dwelling unit, such as the source of water; type of toilet facilities; materials used for the floor, roof, and walls of the house; ownership of various durable goods; and ownership and use of mosquito nets. In addition, the questionnaire was used to record the results of the anaemia and malaria testing as well as the signatures of the interviewer and the respondent who gave consent. Children’s temperatures were also recorded.

The Woman’s Questionnaire was used to collect information from all women age 15-49. These women were asked questions on the following main topics:

• Background characteristics (such as age, residence, education, media exposure, and literacy)

• Birth history and childhood mortality

• Antenatal care and malaria prevention for most recent birth and pregnancy

• Malaria prevention and treatment

• Knowledge about malaria (symptoms, causes, prevention, and drugs used in treatment)

1.4.4 Anaemia and Malaria Testing

The 2010 NMIS incorporated three biomarkers: anaemia testing, malaria testing using RDTs, and thick blood smear and thin blood film sample preparation on microscope slides. Blood samples were obtained by taking finger prick blood samples from children age 6-59 months to perform on-the-spot testing for anaemia and malaria, and to prepare the smears and films that were read in the Department of Medical Microbiology and Parasitology laboratory at the University of Lagos to determine the presence of malaria parasitaemia. Each field team included one laboratory scientist responsible for implementing the malaria and anaemia testing and making the blood smear slides. Each field team also included one nurse who, in addition to interviewing, was also responsible for ensuring that medications for malaria were given in accordance with the appropriate treatment protocols. Verbal and written informed consent

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for testing of children was requested from the child’s parent or guardian and recorded at the end of the household interview.

Anaemia testing. Due to a strong correlation between anaemia and malaria infection, the NMIS included anaemia testing for children age 6-59 months. After obtaining informed consent from the child’s parent or guardian, blood samples were requested and collected using a microcuvette to obtain a drop of blood from a finger prick (or a heel prick in the case of young children with small fingers). Haemoglobin analysis was carried out on site using a battery-operated portable HemoCue analyser, which produces a result within one minute. Results were given to the child’s parent or guardian verbally and in writing. Parents of children with a haemoglobin level under 7 g/dl were instructed to take the child to a health facility for follow-up care. All households with children age 6-59 months were given a brochure explaining the causes and prevention of anaemia. Results of the anaemia testing were recorded on the Household Questionnaire.

Rapid malaria testing. Another major objective of the NMIS was to provide information about the extent of malaria infection among children age 6-59 months. Using the same finger or heel prick used for anaemia testing, a drop of blood was tested immediately using the Paracheck Pf rapid diagnostic test (RDT), which tests for P. falciparum. The test includes a loop applicator that comes in a sterile packet. A tiny portion of blood is captured on the applicator and placed on the well of the device. Results are available in 15 minutes. The results were provided verbally to the child’s parent or guardian and recorded in the Household Questionnaire.

Children who tested positive for malaria were offered a full course of medicine according to standard procedures for treating malaria in Nigeria (FMOH, 2008; see Table 1.2), along with instructions on how to take the medication. To ascertain the correct dose, the team nurse asked about any medications that the child may be currently taking. The nurse weighed the child using the SECA portable scales and provided the appropriate dose of artemisinin-based combination therapy (ACT) along with instructions on how to administer the medicines to the child. The parents or guardians of all children who were tested were given information on how to prevent malaria. All drugs for malaria treatment were provided by the Society for Family Health (SFH) and NMCP.

Malaria testing. In addition to the Paracheck Pf RDT, a thick blood smear and thin blood film were prepared for all children tested. These blood smears were dried. Thin films were fixed with methanol analar in the field. The slides were then packed carefully in sturdy slide boxes in the field, collected from field teams at least once a week by a laboratory scientist, and then transported to the Department of Microbiology and Parasitology, University of Lagos, by air from all zones except the South West zone, due to proximity to the laboratory. Giemsa staining for the slides was performed at the laboratory, and microscopic reading and determination of malaria parasite presence and speciation was conducted. The purpose of the blood slides is to provide a ‘gold standard’ for the presence of parasites within the child’s blood and to ascertain the type of parasite. The laboratory had ten experienced malaria microscope specialists working full-time or close to full-time for a period of about three months. Each slide was examined by two independent microscope specialists, and any discordant results were read by a third microscope specialist. An ICF International consultant provided additional in-service refresher training. ICF International also provided the computer software for documenting test results.

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Table 1.2 Treatment for children with positive malaria test results on RDTs

Weight Age Artemether-Lumefantrine**

Less than 5 kg Refer* Refer* 5-14 kg 6 months-3 years 1 tablet twice a day for 3 days 15-25 kg 4-8 years 2 tablets twice daily for 3 days

* If child weighs less than 5 kgs, do not leave drugs. Tell parent to take child to a health facility. ** The second dose should be given eight hours after the first dose on the day of commencement of treatment. Source: Nigeria FMoH, National Malaria and Vector Control Division, 2008. National Guidelines on Diagnosis and Treatment of Malaria. Abuja, Nigeria.

1.4.5 Pretest Activities

The training for the pretest took place August 16-22, 2010. Overall, 20 people participated in the training. Six female interviewers and four laboratory scientists were trained during the pretest. Six NPC staff members and three NMCP staff members led the training and served as supervisors for the pretest fieldwork. Participants were trained to administer questionnaires and collect biomarkers. The pretest training consisted of a project overview and survey objectives, techniques of interviewing, field procedures, a detailed description of all sections of the Household Questionnaire and the Woman’s Questionnaire, and two days of field practice. The trainers and resource persons included professionals from NPC, NMCP, ICF International, SFH, and YGC.

The pretest fieldwork was conducted by three teams from August 19-22, 2010, in different EAs of Kaduna. The teams were divided according to languages. There was one Hausa team, one Yoruba team, and one Igbo team. The supervisors, who also served as editors, were drawn from the core technical team consisting of individual representatives of NPC and NMCP.

At the end of fieldwork, a debriefing session was held in Abuja on August 30, 2010, with all staff involved in the pretest, and the questionnaires were modified based on the findings from the pretest.

1.4.6 Training of Field Staff

NPC and NMCP recruited and trained 86 people for the main fieldwork. They served as supervisors/editors, interviewers, reserve interviewers, and quality control interviewers. Training of the field staff for the main survey was conducted September 16-30, 2010. The classroom training consisted of instruction regarding interviewing techniques and field procedures, a detailed review of items on the questionnaires, instruction for administering and obtaining parental/guardian consent to test children for anaemia and malaria, and mock interviews between participants in the classroom. There were also field practice interviews with real life individuals from areas outside the 2010 NMIS clusters.

Fifteen laboratory scientists underwent two weeks of training consisting of instruction and practice in collection of blood samples from children age 6-59 months. Additionally, 15 nurses were trained on taking children’s temperature and offering and administering treatment to children who tested positive on the RDTs. During this period, 15 team supervisors/editors and 6 quality control interviewers were provided with additional training on field editing, data quality control procedures, and fieldwork coordination.

Fifteen supervisors/editors, 30 interviewers, 5 reserve interviewers, 15 nurses, and 15 laboratory scientists were selected for 15 data collection teams for the 2010 NMIS. Six additional laboratory scientists engaged in the logistics of transferring slides from the field to the central laboratory in Lagos.

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1.4.7 Data Collection

Through its experience with field surveys such as NDHS and the Nigerian National Census, NPC has developed a field team structure that maximises data quality. Furthermore, the NMCP has had experience working with nurses and laboratory scientists. The existing data collection team capacity was used in the 2010 NMIS. As mentioned above, 15 data collection teams consisting of field interviewers, nurses, and laboratory scientists were formed to cover the 36 states and FCT. More specifically, each team consisted of one supervisor/editor (team leader), two female interviewers, one nurse/interviewer, one laboratory scientist, and one driver.

Six senior staff members from NPC and NMCP, designated as zonal coordinators, coordinated and supervised fieldwork activities. Roll Back Malaria (RBM) partners also monitored fieldwork.

Data collection took place over a three-month period, from October through December 2010. One quality control (QC) interviewer was assigned to each zone. The QC interviewers, however, did not travel with the survey teams. Instead, they trailed the teams to revisit and re-administer the Household and Women’s questionnaires during the first two weeks of data collection and for two weeks prior to the end of the field work. The re-interviews were done in approximately 10 percent of all the completed households.

Field supervisors/editors were responsible for the quality of the work carried out by their respective teams. They travelled with their teams, assigned the work to the team members, and edited all questionnaires in the field to ensure they were complete and filled out correctly. Whenever possible, field editors also observed field interviews to ensure that the proper interviewing techniques and testing protocols were followed.

Coordinators and trainers who conducted the main training also monitored the data collection operations in their assigned zones. They were responsible for providing the SIC chairman and the project director with feedback and updates on field team activities. National monitors, comprised of staff of NMCP, RBM partners, and academia also monitored the field work to ensure high standards of data collection.

After the data were entered, zonal coordinators reviewed data frequencies and tables to identify any data inconsistencies and errors. Coordinators periodically travelled to visit their respective field teams to provide feedback and re-training as needed. To ensure a high level of quality and compliance with study protocols, ICF International staff conducted field observation visits. During these visits, ICF International staff handled field operational problems and proposed solutions, providing feedback and encouragement to the interviewers.

1.4.8 Data Processing

The processing of data for the 2010 NMIS ran concurrently with data collection. Completed questionnaires were retrieved by the zonal coordinators or the trainers and delivered to NPC in standard envelopes, labelled with the sample ID, team number, and state name. The shipment also contained a written summary of any issues detected during the data collection process.

The questionnaire administrators logged the receipt of the questionnaires, acknowledged the specified issues, and acted upon them if required. The data editors performed an initial check on the questionnaires, as well as coding of open-ended questions (with assistance from the data entry operators). The questionnaires were then assigned to the data entry operators. The data entry operators entered the data into the system, with the support of the data editors who handled erroneous or unclear data.

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Data entry personnel were recruited from staff experienced in data entry activities from previous studies. The data entry team consisted of a supervisor, a data entry coordinator, and the data entry operators. Supervisors monitored the entire data entry and editing process, controlled the incoming questionnaires, assigned batches of questionnaires to the data entry operators, and managed the work progress. They were available at all times to ensure that proper procedures were followed and to help editors resolve inconsistencies. Data entry coordinators assisted with coordinating and overseeing the data entry process, assigning the work, tracking progress, and ensuring the quality and timeliness of the data entry process. Approximately 15 clerks were recruited and trained as data entry operators to enter all completed questionnaires and to perform the secondary entry for data verification. Two office editors and one secondary editor worked with the data entry operators to review information flagged as ‘erroneous’ or ‘dubious’ in the data entry process and to provide follow up and resolution for those anomalies.

Data entry and editing were accomplished using CSPro software. The processing of data was initiated in October 2010 and completed in February 2011.

1.5 RESPONSE RATES

The household and individual response rates for the 2010 NMIS are shown in Table 1.3. A total of 6,197 households were selected, and of these 5,986 were occupied. Of the occupied households, 5,895 had occupants who were successfully interviewed, yielding a household response rate of 99 percent. There are no significant differences in the household response rates between rural and urban areas.

In the interviewed households, a total of 6,527 women were identified as eligible for the individual interview, and 97 percent of them were successfully interviewed.

Table 1.3 Results of the household and individual interviews

Number of households, number of interviews, and response rates, according to residence (unweighted), Nigeria 2010

Result

Residence Total

Urban Rural

Household interviews Households selected 2,095 4,102 6,197 Households occupied 1,991 3,995 5,986 Households interviewed 1,944 3,951 5,895

Household response rate1 97.6 98.9 98.5

Interviews with women age 15-49 Number of eligible women 2,143 4,384 6,527 Number of eligible women interviewed 2,088 4,256 6,344

Eligible women response rate2 97.4 97.1 97.2

1 Households interviewed/households occupied2 Respondents interviewed/eligible respondents

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CHARACTERISTICS OF HOUSEHOLDS 2

This chapter presents summary information on socioeconomic characteristics of the households interviewed in the 2010 NMIS. A household is defined as a person or a group of persons, related or unrelated, who live together and share a common source of food. The Household Questionnaire (Appendix E) includes questions about age, sex, and relationship to the head of the household for all usual residents and visitors who spent the night preceding the interview in the house. This method of data collection allows the analysis of the results for either the de jure (usual) or de facto (those who are there at the time of the survey) populations. The Household Questionnaire also obtained information on housing facilities (e.g., source of water supply and sanitation facilities) and household durable goods. These items are used to create an index of relative wealth, which is described in this chapter.

The information presented in this chapter is intended to facilitate interpretation of the key demographic, socioeconomic, and health indicators presented later in the report. It is also intended to assist in the assessment of the representativeness of the survey sample.

2.1 POPULATION BY AGE AND SEX

The distribution of the de facto household population in the 2010 NMIS is shown in Table 2.1 by five-year age groups, according to sex and residence. Information was collected for more than 30,000 people in the selected households. Fifty percent of the de facto population is female, and 50 percent is male. The sex ratio (the number of men per 100 women) is 99. The ratio in rural areas is slightly lower than that of urban areas (99 compared with 101). The results show that the household population has more young people than old people. Forty-eight percent of the total population is under age 15 while 4 percent is age 65 or older. The proportion of the population in each age group declines as age increases; the youngest age group (< 5 years old) has the largest proportion of the population (20 percent), and this percentage decreases steadily to reach less than 1 percent for the oldest age groups (75 years or older). The distribution by age groups is similar for females and males.

Table 2.1 Household population by age, sex, and residence

Percent distribution of the de facto household population by five-year age groups, according to sex and residence, Nigeria 2010

Age

Urban Rural Total

Male Female Total Male Female Total Male Female Total

<5 17.7 17.2 17.4 21.8 21.2 21.5 20.7 20.2 20.4 5-9 14.7 13.2 13.9 16.6 15.3 16.0 16.1 14.8 15.4 10-14 11.8 12.4 12.1 12.2 11.6 11.9 12.1 11.8 12.0 15-19 9.5 8.3 8.9 8.9 7.1 8.0 9.0 7.5 8.2 20-24 7.1 8.9 8.0 5.6 7.7 6.7 6.0 8.0 7.0 25-29 7.2 9.1 8.1 5.4 8.3 6.9 5.9 8.5 7.2 30-34 6.5 7.1 6.8 5.1 6.3 5.7 5.5 6.5 6.0 35-39 5.8 5.3 5.5 4.6 5.3 5.0 4.9 5.3 5.1 40-44 4.4 4.2 4.3 3.9 3.8 3.9 4.0 3.9 4.0 45-49 3.5 3.1 3.3 3.6 3.0 3.3 3.6 3.1 3.3 50-54 3.4 3.7 3.6 3.1 3.5 3.3 3.2 3.5 3.4 55-59 2.2 1.8 2.0 2.0 1.8 1.9 2.1 1.8 1.9 60-64 2.4 2.3 2.3 2.1 1.9 2.0 2.2 2.0 2.1 65-69 1.2 1.3 1.2 1.5 1.0 1.2 1.4 1.0 1.2 70-74 1.2 0.9 1.1 1.4 1.2 1.3 1.4 1.1 1.2 75-79 0.6 0.5 0.6 0.9 0.3 0.6 0.8 0.4 0.6 80+ 0.7 0.6 0.7 1.1 0.6 0.8 1.0 0.6 0.8 Don’t know/missing 0.1 0.1 0.1 0.1 0.0 0.1 0.1 0.1 0.1

Total 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 Number 4,072 4,025 8,097 11,077 11,211 22,290 15,150 15,236 30,387

Note: Total includes 3 persons whose sex was not stated.

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18 | Characteristics of Households

Figure 2.1 illustrates the age structure of the household population in a population pyramid. One feature of population pyramids is their strength in illustrating whether a population is ‘young’ or ‘old’. The broad base of the pyramid indicates that Nigeria’s population is young. This scenario is typical of countries with high fertility rates. The figure shows some underreporting of women age 15-19, presumably due to interviewers deliberately moving women from age 15 to age 14 in order to reduce their workload (also see Appendix Table C.1).

Figure 2.1 Population Pyramid

Nigeria 2010

80+75-7970-7465-6960-6455-5950-5445-4940-4435-3930-3425-2920-2415-1910-14

5-9<5

Age

gro

up

024681012 0 2 4 6 8 10 12

Percent

Male Female

2.2 HOUSEHOLD COMPOSITION

Information on key aspects of the composition of the households, including the household size, is presented in Table 2.2. These characteristics are important because they are associated with household welfare. The data show that the majority of households in Nigeria are headed by men (85 percent). About one in seven (15 percent) are headed by women. Female-headed households are more common in urban areas (19 percent) than in rural areas (14 percent). There has been a slight decrease in the proportion of female-headed households from 19 percent in the 2008 NDHS to 15 percent in the 2010 NMIS.

Table 2.2 shows that the average household size is 5.2 persons, compared with 4.4 persons in the 2008 NDHS. The average household size is lower in urban areas (4.8 persons) than in rural areas (5.4 persons). The proportion of households

Table 2.2 Household composition

Percent distribution of households by sex of head of household and by household size; mean size of household, and percentage of households with orphans and foster children under 18, according to residence, Nigeria 2010

Characteristic Residence

Total Urban Rural

Household headship Male 80.7 86.4 84.7Female 19.3 13.6 15.3

Total 100.0 100.0 100.0

Number of usual members 1 12.9 9.5 10.52 10.7 9.1 9.63 14.0 12.2 12.84 14.9 13.7 14.05 13.0 13.8 13.66 11.2 11.4 11.37 8.9 8.8 8.88 4.1 6.5 5.89+ 10.2 14.9 13.5

Total 100.0 100.0 100.0Mean size of households 4.8 5.4 5.2

Number of households 1,720 4,175 5,895

Note: Table is based on de jure household members, i.e., usual residents.

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Characteristics of Households | 19

with nine or more members is 14 percent, and this percentage is higher in rural areas (15 percent) than in urban areas (10 percent). Since 2008, there has been a large decrease in the proportion of single-member households and an increase in the proportion with 9 or more members.

2.3 HOUSEHOLD ENVIRONMENT

The physical characteristics of the dwelling in which a household lives are important determinants of the health status of household members, especially children. They can also be indicators of the socioeconomic status of households. NMIS household respondents were asked a number of questions about their household environment, including questions on the source of drinking water, type of toilet or latrine facility, type of cooking fuel, flooring, roofing, and walls, and number of sleeping rooms as well as total number of sleeping spaces available in the household. The results are presented for both household and de jure populations.

2.3.1 Drinking Water

Increasing access to improved drinking water is one of the Millennium Development Goals adopted by Nigeria and other nations worldwide (United Nations General Assembly, 2001). Table 2.3 shows the percent distribution of households and of population by the source of the household’s drinking water. Sources that are likely to provide water suitable for drinking are identified as ‘improved sources’. They include a piped source within the dwelling or plot, public tap, tube well or borehole, protected well or spring, and rainwater. It should be noted, however, that even if water is obtained from an improved source, it may be contaminated during transportation or storage.

Table 2.3 Household drinking water

Percent distribution of households and de jure population by source, time to collect, and person who usually collects drinking water; and percentage of households and the de jure population by treatment of drinking water, according to residence, Nigeria 2010

Source of drinking water

Households Population Urban Rural Total Urban Rural Total

Improved source 79.2 49.4 58.1 76.9 47.0 55.0 Piped water into dwelling/yard/plot 7.0 1.3 3.0 7.0 1.3 2.8 Public tap/standpipe 12.9 4.9 7.2 13.1 4.6 6.9 Tube well or borehole 35.2 23.3 26.8 36.0 22.3 25.9 Protected dug well 10.6 14.6 13.4 10.5 14.1 13.1 Protected spring 0.3 0.4 0.3 0.2 0.2 0.2 Rainwater 1.6 3.1 2.6 1.3 2.9 2.4 Bottled water 0.3 0.1 0.2 0.3 0.1 0.1 Water sachets1 11.4 1.7 4.5 8.5 1.5 3.4

Nonimproved source 20.4 50.4 41.6 22.7 52.8 44.8 Unprotected dug well 8.8 21.7 18.0 10.1 23.4 19.8 Unprotected spring 4.7 6.2 5.8 4.9 5.6 5.4 Tanker truck/cart with small tank 4.0 0.8 1.8 4.7 1.0 2.0 Surface water 2.8 21.6 16.1 3.0 22.8 17.6 Missing 0.5 0.2 0.3 0.4 0.2 0.2

Total 100.0 100.0 100.0 100.0 100.0 100.0

Number 1,720 4,175 5,895 8,178 22,475 30,653

1 For purposes of this table, water sachets are considered to be an improved source; however, some water sold in sachets is likely to be unsafe.

Fifty-three percent of Nigerian households have an improved source of drinking water, similar to

the figure of 56 percent reported in the 2008 NDHS. Urban households (68 percent) are much more likely than rural households (48 percent) to use an improved source of drinking water. The most common single source of drinking water is the tube well or borehole: 35 percent for urban households and 23 percent for rural households. Fifty percent of rural households obtain drinking water from non-improved sources,

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with 22 percent obtaining water from an unprotected dug well and 22 percent obtaining their drinking water from surface water (lakes and ponds, rivers and streams). On the other hand, only one in five urban households uses an unimproved water source, with water sachets being the most commonly used source (11 percent).

2.3.2 Household Sanitation Facilities

Ensuring adequate sanitation facilities is another one of the Millennium Development Goals that Nigeria shares with other countries. A household is classified as having an improved toilet if the toilet is used only by members of one household (i.e., it is not shared with other households) and if the facility used by the household separates the waste from human contact (WHO/UNICEF Joint Monitoring Programme for Water Supply and Sanitation, 2004). Households without proper sanitation facilities are more exposed to the risk of diseases like dysentery, diarrhoea, and typhoid fever than those with improved sanitation facilities.

Table 2.4 presents data on the type of toilet facilities used by the household. Forty-three percent of Nigerian households use an improved toilet facility (64 percent of urban households and 34 percent of rural households). Over half (57 percent) use a nonimproved facility (36 percent of urban households and 66 percent of rural households). Overall, one-third of all households (34 percent) use no facility at all (21 percent of urban households and 40 percent of rural households).

Table 2.4 Household sanitation facilities

Percent distribution of households and de jure population by type of toilet/latrine facilities, according to residence, Nigeria 2010

Type of toilet/latrine facility

Households Population

Urban Rural Total Urban Rural Total

Improved facility Flush to piped sewer system 18.7 3.8 8.1 17.1 3.4 7.0 Flush to septic tank 10.6 1.9 4.4 9.8 1.6 3.8 Flush to pit latrine 4.9 1.6 2.5 4.9 1.3 2.3 Flush to somewhere else 1.3 0.2 0.5 1.2 0.2 0.5 Flush, don’t know where 0.1 0.0 0.0 0.1 0.1 0.1 Ventilated Improved Pit latrine (VIP) 4.0 1.8 2.4 4.2 1.8 2.4 Pit latrine with slab 24.4 24.9 24.7 25.1 26.0 25.7

Total improved facility 64.0 34.2 42.6 62.4 34.4 41.8

Nonimproved facility Pit latrine without slab/open pit 12.2 22.6 19.6 14.1 24.7 21.9 No facility/bush/field 20.5 39.5 33.9 20.0 37.5 32.8 Composting toilet 0.0 0.2 0.2 0.1 0.2 0.2 Bucket toilet 0.1 0.0 0.0 0.1 0.0 0.0 Hanging toilet/latrine 2.6 3.3 3.1 2.6 3.1 3.0 Missing 0.7 0.2 0.4 0.6 0.2 0.3

Total nonimproved facility 36.1 65.8 57.2 37.5 65.7 58.2

Total 100.0 100.0 100.0 100.0 100.0 100.0 Number 1,720 4,175 5,895 8,178 22,475 30,653

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Characteristics of Households | 21

It is difficult to compare the sanitation data from the 2010 NMIS with the data from the 2008 NDHS data for a few reasons. The 2008 NDHS asked respondents if the toilet facility was shared with other households. This question was not asked in the NMIS; therefore, it is not one of the criteria used to distinguish between an improved and nonimproved facility in Table 2.4. By comparison, the figures from the 2010 NMIS differ significantly from the 2008 NDHS in the categorization of the percentages of households with a flush toilet to a septic tank or a pit latrine, a ventilated improved pit latrine, and a pit latrine with a slab and without a slab. When reviewing the 2008 NDHS data without distinguishing if the facility is shared, the combined percentages of households with a flush toilet, which includes toilets flushing to a piped sewer system and to a septic tank, are within reasonable variations with the 2010 NMIS figures (15 and 13 percent, respectively). The data are similar when comparing the 2008 NDHS and 2010 NMIS data on the combined percentages of households with a pit latrine, which includes a VIP, a pit latrine with a slab, and a pit latrine without a slab. Both the 2008 NDHS and the 2010 NMIS reported 47 percent of households have a pit latrine, irrespective of type. One explanation for the observed differences may be confusion among the interviewers and respondents on classification regarding the specific type of flush toilets and pit latrine toilets during data collection in both the 2008 NDHS and 2010 NMIS surveys. Future surveys must improve interviewer training in the classification of toilet facilities.

2.3.3 Housing Characteristics

Table 2.5 presents information on a number of characteristics of the dwelling in which households live, such as the use of electricity; types of flooring, wall, and roof materials; number of sleeping rooms; and varieties of cooking fuel. These characteristics reflect the household’s socioeconomic status. They also may influence environmental conditions – for example, in the case of the use of biomass fuels, exposure to indoor pollution – that have a direct bearing on the health and welfare of household members.

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22 | Characteristics of Households

Table 2.5 Household characteristics

Percent distribution of households and de jure population by housing characteristics and percentage using solid fuel for cooking; and among those using solid fuels, percent distribution by type of fire/stove, according to residence, Nigeria 2010

Housing characteristic

Households Population Urban Rural Total Urban Rural Total

Electricity Yes 79.8 34.9 48.0 78.0 34.0 45.7 No 19.5 64.5 51.4 21.4 65.4 53.6 Missing 0.7 0.6 0.6 0.6 0.6 0.6

Total 100.0 100.0 100.0 100.0 100.0 100.0

Flooring material Earth, sand 16.0 52.3 41.7 18.4 53.6 44.2 Wood/planks 0.1 0.4 0.3 0.1 0.4 0.3 Parquet or polished wood 0.0 0.0 0.0 0.0 0.0 0.0 Vinyl or asphalt strips 0.8 0.1 0.3 0.8 0.1 0.3 Ceramic tiles 2.8 1.1 1.6 3.1 1.0 1.5 Cement 66.6 41.5 48.8 65.6 41.0 47.6 Carpet 13.1 4.3 6.8 11.6 3.6 5.7 Missing 0.6 0.2 0.4 0.5 0.2 0.3

Total 100.0 100.0 100.0 100.0 100.0 100.0

Main wall material Mud and sticks 13.2 37.4 30.4 14.0 37.2 31.0 Cane/palm/trunks 0.4 0.8 0.7 0.3 0.7 0.6 Straw, thatch mats 0.5 0.7 0.6 0.4 0.6 0.6 Mud bricks 7.3 25.1 19.9 8.7 27.4 22.4 Cement or stone blocks 70.1 30.8 42.2 67.0 29.0 39.1 Bricks 7.3 3.4 4.5 8.5 3.5 4.8 Wood planks/shingles 0.4 1.3 1.0 0.3 1.1 0.9 Other 0.1 0.3 0.3 0.1 0.3 0.3 Missing 0.7 0.2 0.3 0.5 0.1 0.2

Total 100.0 100.0 100.0 100.0 100.0 100.0

Main roof material Thatch/palm leaf 8.5 27.7 22.1 9.2 28.7 23.5 Palm/bamboo/mats 0.1 3.6 2.6 0.2 3.7 2.8 Wood planks 0.5 2.4 1.8 0.9 2.9 2.3 Zinc, metal 72.3 56.2 60.9 73.6 55.5 60.3 Wood 0.4 0.9 0.8 0.4 1.3 1.0 Ceramic tiles 0.1 0.1 0.1 0.1 0.1 0.1 Concrete, cement 3.2 1.8 2.2 2.9 1.6 1.9 Asbestos sheets, shingles 14.2 7.1 9.2 12.2 6.0 7.7 Missing 0.6 0.2 0.3 0.5 0.2 0.3

Total 100.0 100.0 100.0 100.0 100.0 100.0

Rooms used for sleeping One 37.1 28.4 30.9 22.9 16.5 18.2 Two 31.6 33.4 32.9 32.1 30.7 31.1 Three or more 30.8 38.0 35.9 44.6 52.6 50.5 Missing 0.5 0.2 0.3 0.4 0.2 0.2

Total 100.0 100.0 100.0 100.0 100.0 100.0

Cooking fuel Electricity 0.4 0.1 0.2 0.4 0.1 0.2 LPG/natural gas/biogas 1.9 0.4 0.8 1.7 0.4 0.7 Kerosene 48.6 10.7 21.8 40.8 7.8 16.6 Coal/lignite 0.4 0.0 0.1 0.2 0.0 0.1 Charcoal 4.2 1.5 2.3 4.4 1.3 2.2 Wood 42.7 85.9 73.3 51.7 89.5 79.4 Straw/shrubs/grass 0.1 0.6 0.4 0.2 0.6 0.5 No food cooked in household 1.1 0.5 0.7 0.2 0.1 0.1 Missing 0.5 0.2 0.3 0.4 0.1 0.2

Total 100.0 100.0 100.0 100.0 100.0 100.0

Percentage using solid fuel for cooking1 47.5 88.1 76.2 56.4 91.5 82.2

Number of households 1,720 4,175 5,895 8,178 22,475 30,653

LPG = Liquid petroleum gas 1 Includes coal/lignite, charcoal, wood/straw/shrubs/grass, agricultural crops, and animal dung [list categories included in the country questionnaire]

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Characteristics of Households | 23

Half of Nigerian households (51 percent) do not have electricity. Eighty percent of households in urban areas have access to electricity, compared with only 35 percent of households in rural areas.

Forty-two percent of households live in dwellings with earth or sand floors, while 49 percent live in dwellings with cement floors. Differences by urban-rural residence are large. Almost seven in ten (67 percent) urban households have cement floors compared with about four in ten (42 percent) rural households. More than half (52 percent) of rural households have earth or sand floors compared with only 16 percent of urban households. This information is important because flooring material used in dwellings is not only an indicator of household wealth status but also often an indicator of the quality of the health environment in which the household lives.

With regard to the main wall material of the dwelling, 42 percent of the households live in dwellings with cement or stone block walls, 30 percent live in structures with mud and stick walls, and 20 percent of households live in structures with mud brick walls. The majority of urban households live in dwellings with walls made of cement or stone blocks (70 percent), while the majority of rural households live in dwellings with mud and stick walls (37 percent).

Sixty-one percent of households in Nigeria live in dwellings with zinc or metal roofs, and 22 percent live in dwellings with thatch or palm leaf roofs. Seventy-two percent of urban households live in dwellings with zinc or metal roofs compared with 56 percent of rural households.

The number of rooms a household uses for sleeping is an indicator of socioeconomic level; it can also be used to assess crowding, which can facilitate the spread of disease. In the 2010 NMIS, household respondents were asked how many rooms were used for sleeping, regardless of whether the rooms were bedrooms or not. Results show that 31 percent of households use one room for sleeping, 33 percent use two rooms, and 36 percent use three or more rooms. Urban households (37 percent) are more likely than rural households (28 percent) to use only one room for sleeping.

Table 2.5 also shows the distribution of households by the type of fuel used for cooking, which relates to air quality in the household. Seventy-three percent of Nigerian households use wood for fuel, and 22 percent use kerosene. More than four in ten urban households use wood for cooking (43 percent) compared with more than eight in ten (86 percent) of rural households. Urban households are much more likely to use kerosene than rural households (49 percent versus 11 percent).

2.4 HOUSEHOLD POSSESSIONS

The availability of durable goods is a good indicator of a household’s socioeconomic status. Moreover, particular goods have specific benefits. For instance, having access to a radio or a television exposes household members to mass media and messages; a refrigerator prolongs the wholesomeness of foods; and a means of transport allows access to many services that may be unavailable locally.

Table 2.6 shows the availability of selected consumer goods by residence. Sixty-nine percent of households have a radio, 60 percent have mobile phones, and 40 percent have televisions. There is noticeable urban-rural variation in the proportion of households owning these durable goods. The possession of each of the household effects listed in Table 2.6 is significantly higher in urban than in rural households.

Table 2.6 also shows the proportion of households owning various means of transport. Thirty-two percent of the households (25 percent in urban areas and 35 percent in rural areas) own a motorcycle or scooter, and 23 percent own a bicycle (11 percent in urban areas and 28 percent in rural areas). Only 10 percent of all households own a car or truck (18 percent in urban areas and 6 percent in rural areas), and 3 percent own an animal-drawn cart (2 percent in urban areas and 3 percent in rural areas).

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24 | Characteristics of Households

Table 2.6 Household durable goods

Percentage of households and de jure population possessing various household effects, means of transportation, agricultural land and livestock/farm animals by residence, Nigeria 2010

Possession

Households Population Urban Rural Total Urban Rural Total

Household effects Radio 74.7 66.3 68.7 76.8 70.1 71.9 Television 68.8 28.2 40.0 70.3 28.9 39.9 Mobile telephone 80.0 51.3 59.7 81.2 52.2 59.9 Non-mobile telephone 1.5 0.7 0.9 1.6 0.8 1.0 Refrigerator 32.0 7.9 15.0 34.9 8.3 15.4 Cable TV 11.1 3.1 5.4 12.4 3.4 5.8 Generating set 33.7 18.7 23.1 35.5 19.7 23.9 Air conditioner 3.8 0.5 1.5 4.5 0.5 1.6 Computer 7.3 1.2 3.0 7.1 1.3 2.8 Electric iron 56.8 15.7 27.7 56.1 15.9 26.7 Fan 70.4 23.8 37.4 70.2 23.8 36.2

Means of transport Bicycle 10.8 28.4 23.3 14.7 33.0 28.1 Animal drawn cart 1.7 3.4 2.9 2.0 4.5 3.8 Motorcycle/scooter 24.8 35.4 32.3 29.7 40.8 37.9 Car/truck 18.0 6.2 9.7 20.7 7.1 10.7 Boat with a motor 0.5 0.1 0.2 0.8 0.1 0.3

Number 1,720 4,175 5,895 8,178 22,475 30,653

2.5 WEALTH INDEX

The wealth index is a background characteristic that is used throughout this report as an indicator of the economic status of households that is consistent with expenditure and income measures. It is calculated using data on the household’s ownership of consumer goods, dwelling characteristics, source of drinking water, sanitation facilities, and other characteristics that relate to a household’s socioeconomic status. To construct the index, each of these assets is assigned a weight (factor score) generated through principal component analysis, and the resulting asset scores are standardised in relation to a standard normal distribution with a mean of zero and standard deviation of one (Gwatkin et al., 2000). Each household is then assigned a score for each asset, and the scores are summed for each household. Individuals are ranked according to the total score of the household in which they reside. The sample is then divided into quintiles from one (lowest) to five (highest). A single asset index is developed on the basis of data from the entire country sample, and this index is used in all of the tabulations presented.

Table 2.7 shows the percent distribution of the de jure household population by wealth quintile according to residence and region, and areas with a long-lasting insecticidal net (LLIN) malaria campaign. The distributions indicate the degree to which wealth is evenly (or unevenly) distributed geographically. The table shows that urban areas have higher proportions of people in the fourth and highest quintiles (28 and 49 percent, respectively) compared with rural areas (17 and 9 percent, respectively). On the other hand, rural areas have higher proportions of the population in the lowest and second quintiles (25 percent each) than urban areas (7 and 6 percent, respectively).

Furthermore, the three southern zones, which are more urbanised, have greater proportions of their populations in the higher wealth quintiles than the northern zones. For example, 40 percent of the population in South West is concentrated in the highest wealth quintile. The percentage of the population in the highest wealth quintile is 34 percent in South South and 31 percent in South East. By contrast the proportion of the population in the highest wealth quintile in North East is only 5 percent and in North West 7 percent.

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Households residing in states targeted by the World Bank Booster campaign are fairly evenly distributed across wealth quintiles, while areas targeted by other campaigns include households concentrated in the second and middle wealth quintiles (31 and 32 percent, respectively).

Also included in Table 2.7 is the Gini coefficient, which indicates the level of concentration of wealth. A low Gini coefficient indicates a more equal distribution (0 being total equality), while a high Gini coefficient indicates more unequal distribution (100 corresponds to total unequal distribution). Survey results show that wealth is relatively more evenly distributed in urban areas (19 percent) than in rural areas (23 percent). Among the zones, wealth is most evenly distributed in South East (12 percent) and least evenly distributed in North Central (25 percent). There are no major variations in the Gini coefficient among areas for LLIN malaria campaigns.

Table 2.7 Wealth quintiles

Percent distribution of the de jure population by wealth quintiles and the Gini coefficient, according to residence and region, Nigeria 2010

Residence/region

Wealth quintile Total

Number of population

Gini coefficient Lowest Second Middle Fourth Highest

Residence Urban 7.2 5.9 9.8 27.9 49.2 100.0 8,178 18.5 Rural 24.7 25.1 23.8 17.1 9.3 100.0 22,475 23.2

Zone North Central 18.9 24.7 24.6 15.9 15.9 100.0 5,076 25.3 North East 48.8 24.6 14.2 7.2 5.2 100.0 4,854 16.8 North West 27.6 30.2 23.9 11.9 6.5 100.0 8,034 18.5 South East 1.5 3.2 19.2 44.8 31.3 100.0 3,107 11.5 South South 5.6 7.6 18.7 34.0 34.2 100.0 4,263 17.4 South West 5.7 15.6 16.8 22.2 39.7 100.0 5,320 20.6

Areas for LLIN malaria

campaigns1 World Bank Booster1 24.1 19.8 18.1 18.9 19.1 100.0 6,924 27.7 Others with campaigns2 13.6 30.6 32.0 11.7 12.1 100.0 5,602 24.8

Others with no campaigns3 20.4 16.8 17.1 23.0 22.8 100.0 18,127 25.5

Total 20.0 20.0 20.0 20.0 20.0 100.0 30,653 26.6

1 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 2 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 3 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

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CHARACTERISTICS OF RESPONDENTS 3

The purpose of this chapter is to provide a demographic and socioeconomic profile of individual female respondents. This information is essential for interpretation of the findings presented later in the report and provides an indication of the representativeness of the survey.

3.1 GENERAL CHARACTERISTICS OF WOMEN

Table 3.1 presents the distribution of women age 15-49 by age group, residence, education level, and wealth quintile. In general, the proportion of respondents in each age group declines as age increases, reflecting the comparatively young age structure of the population. The slightly lower proportion of women who are categorised as age 15-19 compared with those age 20-24 and age 25-29 could be due to deliberate age misreporting on the part of interviewers.

Table 3.1 Background characteristics of women

Percent distribution of women age 15-49 by selected background characteristics, Nigeria 2010

Background characteristic

Number of women

Weighted percent Weighted Unweighted

Age 15-19 17.2 1,091 1,100 20-24 18.4 1,165 1,139 25-29 20.1 1,273 1,285 30-34 15.1 957 951 35-39 12.6 802 808 40-44 9.4 597 602 45-49 7.2 459 459

Residence Urban 28.4 1,803 2,088 Rural 71.6 4,541 4,256

Zone North Central 16.4 1,039 1,079 North East 15.0 951 1,087 North West 25.0 1,584 1,205 South East 10.7 681 1,011 South South 15.1 959 1,124 South West 17.8 1,130 838

Areas for LLIN malaria campaigns World Bank Booster1 23.1 1,463 1,559 Others with campaigns2 18.7 1,188 1,111 Others with no campaigns3 58.2 3,693 3,674

Education No education 42.5 2,699 2,340 Primary 17.0 1,079 1,141 Secondary 32.9 2,084 2,331 More than secondary 7.6 483 532

Wealth quintile Lowest 18.4 1,165 996 Second 18.4 1,165 1,040 Middle 20.0 1,268 1,237 Fourth 20.1 1,275 1,461 Highest 23.2 1,472 1,610

Total 15-49 100.0 6,344 6,344

Note: Education categories refer to the highest level of education attended, whether or not that level was completed. 1 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 2 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 3 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

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28 | Characteristics of Respondents

Twenty-eight percent of the female respondents live in urban areas, and 72 percent live in rural areas. One in four women (25 percent) lives in the North West zone, followed by 18 percent who live in the South West zone, and 16 percent who live in the North Central zone.

The majority of women (58 percent) live in areas where there were no long-lasting insecticidal net (LLIN) malaria campaigns during the time of the survey. Almost one-quarter of women (23 percent) live in states where the World Bank Booster net campaign was conducted, and 19 percent of women live in states with other net campaigns.

More than four in ten women have no education (43 percent), 17 percent have attended primary school, 33 percent have attended some secondary school, and only 8 percent have any education beyond secondary school.

3.2 EDUCATIONAL ATTAINMENT OF WOMEN

Education is a key determinant of the lifestyle and status an individual enjoys in a society. Studies have consistently shown that educational attainment has a strong effect on health behaviours and attitudes. In general, the higher the level of education that a woman attains, the more knowledgeable she is about the use of health facilities and health care services for herself, her children, and her family. Table 3.2 presents general educational characteristics of women and shows the relationship between the respondent’s level of education and other background characteristics.

Generally, younger women have attained more education and have reached higher levels of education than older women. For example, only 34 percent of women age 15-24 have never been to school compared with 53 percent of women age 40-44 and 57 percent of women age 45-49. In addition, younger women are much more likely than older women to have completed secondary school. For example, 20 percent of women age 15-24 have completed secondary school compared with just 8 percent of women age 45-49.

Urban women are more likely to have attended school than rural women. Only 18 percent of urban women have never been to school compared with 52 percent of rural women. Urban women also stay in school longer, 66 percent of urban women have attended secondary or higher education compared with 30 percent of rural women.

The South East (3 percent) and South South (7 percent) zones have the lowest percentages of uneducated women, while the North West (80 percent) and North East (75 percent) zones have the highest percentages of uneducated women. The South East and South West zones have the highest proportions of women who have attained more than secondary schooling (13 and 14 percent, respectively) compared with 2-3 percent of women in the North West and North East zones.

Net campaigns are occurring in states where the proportion of women with no education is higher than the national average.

Table 3.2 also shows that poorer women are less educated than richer women. Most women in the lowest wealth quintile have no education (86 percent), compared with only 4 percent of women in the highest wealth quintile having no education. Only 5 percent of women in the lowest wealth quintile have at least some secondary education, compared with 82 percent of women in the highest wealth quintile.

Overall, the median number of years of education among survey respondents is 5 years.

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Characteristics of Respondents | 29

Table 3.2 Educational attainment of interviewed women

Percent distribution of women age 15-49 by highest level of schooling attended or completed, and median grade completed, according to background characteristics, Nigeria 2010

Background characteristic

Highest level of schooling

Total Median years

completed Number of

women No

education Some

primary Completed

primary1 Some

secondary Completed secondary2

More than secondary

Age 15-24 34.0 4.5 7.6 28.8 19.5 5.7 100.0 6.9 2,256 15-19 28.0 4.8 6.6 45.1 14.2 1.3 100.0 7.4 1,091 20-24 39.7 4.3 8.4 13.5 24.4 9.7 100.0 5.6 1,165 25-29 42.1 5.9 11.2 9.4 20.2 11.2 100.0 5.1 1,273 30-34 44.6 5.3 13.9 8.6 17.6 9.9 100.0 4.9 957 35-39 49.0 6.5 16.7 9.1 13.2 5.4 100.0 0.7 802 40-44 52.6 5.4 14.7 9.1 12.0 6.2 100.0 0.0 597 45-49 56.7 5.3 15.9 5.8 8.3 8.0 100.0 0.0 459

Residence Urban 18.4 3.7 11.5 20.5 30.2 15.7 100.0 10.3 1,803 Rural 52.1 6.0 11.7 14.0 11.8 4.4 100.0 0.0 4,541

Zone North Central 38.9 7.7 15.3 17.0 12.3 8.7 100.0 5.2 1,039 North East 74.7 3.0 5.1 7.9 6.5 2.8 100.0 0.0 951 North West 79.9 3.8 4.2 4.9 5.4 1.8 100.0 0.0 1,584 South East 3.2 6.3 15.6 26.9 34.8 13.3 100.0 10.7 681 South South 7.3 5.8 21.6 24.0 32.1 9.3 100.0 9.1 959 South West 20.2 6.3 13.5 23.1 23.0 13.9 100.0 8.6 1,130

Areas for LLIN malaria

campaigns World Bank Booster3 51.1 4.2 8.4 11.8 18.1 6.4 100.0 0.0 1,463 Others with campaigns4 65.1 2.7 6.5 9.6 8.7 7.4 100.0 0.0 1,188 Others with no campaigns5 31.9 6.6 14.6 19.4 19.3 8.1 100.0 5.8 3,693

Wealth quintile Lowest 85.9 4.5 4.9 3.5 1.0 0.1 100.0 0.0 1,165 Second 68.8 6.1 11.0 9.8 3.8 0.6 100.0 0.0 1,165 Middle 50.4 6.5 13.2 17.1 10.7 2.2 100.0 0.0 1,268 Fourth 15.4 6.8 18.1 27.1 25.7 7.0 100.0 8.1 1,275 Highest 4.2 3.1 10.7 19.5 38.1 24.3 100.0 11.3 1,472

Total 42.5 5.3 11.7 15.8 17.0 7.6 100.0 5.2 6,344

1 Completed 6th grade at the primary level 2 Completed 6 years at the secondary level 3 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 4 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 5 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

3.3 LITERACY OF WOMEN

The ability to read and write is an important personal asset, allowing individuals increased opportunities in life. Knowing the distribution of the literate population can help those involved in health communication plan how to reach women with their messages. Instead of asking respondents if they could read, NMIS interviewers assessed the ability to read among women who had never been to school or who had attended only the primary level by asking them to read a simple, short sentence or part of the sentence. Table 3.3 shows the percent distribution of female respondents by level of literacy and the percentage literate according to background characteristics. Female respondents who had never attended school or who had attended school up to the primary level were asked to demonstrate literacy by reading from a card with a simple sentence in one of four languages (Hausa, Igbo, Yoruba, and English). The survey assumed that respondents who attended any secondary schooling are literate. The percentage literate (as presented in Table 3.3) includes respondents who could read part or all of a sentence, and those who attended secondary school or higher.

The data show that 50 percent of women age 15-49 are literate. There are large differentials in literacy across background characteristics. For example, only 38 percent of women age 45-49 are literate, compared with 67 percent of women age 15-19.

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30 | Characteristics of Respondents

Urban-rural differentials are quite substantial, with 76 percent of urban women literate, compared with 40 percent of rural women. South East has by far the highest proportion of women who are literate (89 percent), while the North East and North West zones have the lowest (24 and 19 percent, respectively). Fifty-eight percent of women are literate among states with no net campaign. In states that conducted net campaigns, the proportion of women who are literate is lower than the national average. Literacy levels increase dramatically with increasing wealth quintiles, from 10 percent among women in the poorest wealth quintile to 91 percent of those in the highest quintile.

Table 3.3 Literacy of interviewed women

Percent distribution of women age 15-49 by level of schooling attended and level of literacy, and percentage literate, according to background characteristics, Nigeria 2010

Background characteristic

Secondary school or

higher

No schooling or primary school

Total Percentage

literate1 Number of

women

Can read a whole

sentence

Can read part of a sentence

Cannot read at all Missing

Age 15-19 60.6 1.6 4.6 32.2 0.9 100.0 66.9 1,091 20-24 47.6 1.2 5.4 44.4 1.4 100.0 54.2 1,165 25-29 40.8 1.9 6.3 49.5 1.5 100.0 49.0 1,273 30-34 36.2 3.1 7.9 51.3 1.6 100.0 47.1 957 35-39 27.7 3.3 10.6 56.2 2.1 100.0 41.6 802 40-44 27.2 3.8 8.1 59.5 1.4 100.0 39.1 597 45-49 22.1 4.0 11.5 60.1 2.3 100.0 37.6 459

Residence Urban 66.4 2.3 7.8 21.5 2.1 100.0 76.4 1,803 Rural 30.2 2.4 6.9 59.1 1.3 100.0 39.6 4,541

Zone North Central 38.1 2.6 7.4 50.9 1.0 100.0 48.0 1,039 North East 17.2 0.4 6.1 75.8 0.5 100.0 23.7 951 North West 12.2 2.2 5.0 79.4 1.3 100.0 19.3 1,584 South East 74.9 3.4 10.8 9.8 1.0 100.0 89.1 681 South South 65.4 2.3 9.9 20.7 1.7 100.0 77.6 959 South West 60.0 3.7 6.4 26.4 3.4 100.0 70.2 1,130

Areas for LLIN malaria campaigns World Bank Booster2 36.3 1.8 5.9 54.9 1.2 100.0 44.0 1,463 Others with campaigns3 25.7 1.6 5.1 65.1 2.5 100.0 32.4 1,188 Others with no campaigns4 46.9 2.9 8.4 40.5 1.4 100.0 58.1 3,693

Wealth quintile Lowest 4.6 0.6 4.2 90.1 0.4 100.0 9.5 1,165 Second 14.1 1.5 7.5 75.1 1.6 100.0 23.1 1,165 Middle 30.0 3.1 8.0 56.5 2.4 100.0 41.0 1,268 Fourth 59.8 3.7 10.1 24.4 2.0 100.0 73.6 1,275 Highest 82.0 2.8 6.0 8.0 1.2 100.0 90.8 1,472

Total 40.5 2.4 7.2 48.4 1.5 100.0 50.0 6,344

1 Refers to women who attended secondary school or higher and women who can read a whole sentence or part of a sentence2 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 3 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 4 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

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Knowledge of Malaria and Fever Management | 31

KNOWLEDGE OF MALARIA AND FEVER MANAGEMENT 4

4.1 WOMEN’S KNOWLEDGE OF MALARIA

4.1.1 Knowledge of Malaria Symptoms

To assess basic knowledge about malaria, all women who were interviewed in the 2010 Nigeria Malaria Indicator Survey (NMIS) were asked if they had ever heard of malaria. If they responded affirmatively, they were then asked if they could name any symptoms of malaria (specifically, ‘what are some things that can happen to you when you have malaria?’). Results are shown in Table 4.1. Percentages may sum to more than 100 because respondents could give more than one response.

Table 4.1 Knowledge of malaria symptoms

Percentage of all women age 15-49 who have ever heard of malaria and, among them, percentage who know various symptoms of malaria, by background characteristics, Nigeria 2010

Background characteristic

Among all women Among women who have ever heard of malaria, percentage who cite specific symptoms

Percentage who know

about malaria

Number of women Fever

Chills/ shivering Headache Joint pain

Poor appetite Vomiting

Convul-sion Other

Don’t know any

Number of women

Age 15-19 90.9 1,091 61.5 40.2 56.3 31.3 20.6 23.6 4.1 0.3 2.6 992 20-24 94.4 1,165 68.7 44.2 53.9 30.1 22.3 22.6 4.3 0.1 1.6 1,100 25-29 95.3 1,273 66.2 46.3 55.2 29.7 22.7 22.7 2.7 0.1 1.7 1,213 30-34 95.8 957 67.8 43.1 51.8 30.2 23.3 22.6 2.0 0.9 2.0 917 35-39 95.3 802 67.4 46.7 52.3 31.8 24.1 23.0 2.7 0.0 2.0 764 40-44 94.6 597 64.3 47.5 56.6 33.1 21.7 22.0 3.0 0.6 2.1 565 45-49 95.9 459 72.6 45.4 58.6 34.5 23.3 19.0 2.9 0.1 0.8 440

Residence Urban 98.3 1,803 66.0 47.6 60.4 33.6 27.9 22.5 3.7 0.4 0.8 1,772 Rural 92.9 4,541 66.8 43.2 52.2 30.0 20.2 22.5 2.9 0.3 2.3 4,219

Zone North Central 87.9 1,039 52.7 53.7 67.8 37.3 11.0 7.2 0.5 0.4 3.3 913 North East 92.8 951 83.3 22.8 56.7 27.9 35.7 48.8 7.5 0.2 1.6 882 North West 94.6 1,584 71.4 51.1 56.4 31.6 19.3 34.5 5.6 0.4 1.4 1,499 South East 99.5 681 75.5 39.8 52.8 22.0 19.2 10.8 0.7 0.0 2.2 678 South South 96.9 959 78.0 46.4 44.0 25.9 28.9 13.9 1.7 0.1 1.5 929 South West 96.4 1,130 42.9 46.7 49.7 37.7 22.4 12.1 1.4 0.7 1.6 1,089

Areas for LLIN malaria

campaigns World Bank Booster1 94.8 1,463 81.0 47.5 54.3 28.3 24.7 32.6 4.4 0.2 1.6 1,386 Others with campaigns2 94.2 1,188 52.2 44.3 56.5 33.2 19.7 20.4 3.6 0.9 1.0 1,119 Others with no campaigns3 94.4 3,693 65.5 43.4 54.2 31.5 22.5 19.2 2.5 0.2 2.3 3,485

Education No education 91.1 2,699 65.9 40.6 54.5 29.9 19.7 28.5 3.5 0.4 2.2 2,457 Primary 94.5 1,079 66.2 46.9 51.4 33.8 21.3 15.2 2.3 0.1 1.5 1,019 Secondary 97.6 2,084 66.6 46.3 53.7 29.2 23.8 18.2 2.9 0.2 2.0 2,033 More than secondary 99.6 483 71.1 51.7 65.6 39.3 33.6 25.3 4.3 0.5 0.6 481

Wealth quintile Lowest 91.0 1,165 73.7 34.8 57.2 29.7 20.7 30.4 3.0 0.1 2.2 1,059 Second 90.8 1,165 65.7 44.5 53.1 32.2 20.6 25.7 3.3 0.1 1.9 1,057 Middle 93.6 1,268 61.9 44.5 50.6 28.5 16.1 19.2 3.5 0.8 2.6 1,187 Fourth 97.1 1,275 70.4 46.7 52.4 28.2 23.3 19.2 3.5 0.2 1.8 1,238 Highest 98.5 1,472 62.7 49.7 59.1 35.9 29.8 20.0 2.7 0.3 1.1 1,450

Total 94.4 6,344 66.6 44.5 54.6 31.1 22.5 22.5 3.2 0.3 1.9 5,991

1 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers.2 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 3 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

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32 | Knowledge of Malaria and Fever Management

The results show that knowledge of malaria is almost universal. Ninety-four percent of women have heard of malaria, a statistic that varies little by background characteristics. More than 90 percent of women in all groups have heard of malaria, except in North Central, where only 88 percent of women report having heard of malaria.

When women who had heard about malaria were asked about symptoms of malaria, the most common responses were fever (mentioned by 67 percent of women) and headache (55 percent). Forty-five percent of women responded that chills were a symptom of malaria, and 31 percent stated that joint pain is a symptom. Twenty-three percent of women reported poor appetite and vomiting as symptoms. Three percent of women said that convulsions were a symptom of malaria. Only 2 percent of women did not know any symptoms of malaria.

Differences in the reporting of malaria symptoms by background characteristics vary by zones, with LLIN campaign areas having sizeable differences. Women in North East are almost twice as likely as those in South West to report fever as a symptom of malaria (83 percent and 43 percent, respectively).

4.1.2 Knowledge of Causes of Malaria and Age Groups Most Likely to be Affected by Malaria

Lack of knowledge about how malaria is spread interferes with the ability to take appropriate preventive measures. Women were asked several questions to ascertain their knowledge of the causes of malaria. Table 4.2 presents information on responses provided by women age 15-49 when they were asked what causes malaria and which groups of people are most likely to get a serious case of malaria. Interviewers recorded and Table 4.2 presents, as many responses as women provided, in other words, a respondent may have mentioned more than one cause and more than one group of people.

Eighty-two percent of women know that malaria is caused by mosquitoes, while 27 percent say malaria is caused by dirty surroundings, and 12 percent say malaria is caused by the presence of stagnant water. Six percent of women say that eating certain foods causes malaria, and 8 percent of women responded that they did not know what causes malaria.

When asked which groups of people are most likely to get a serious case of malaria, 64 percent of women report that children are most likely to be affected by malaria, 43 percent of women report that everyone is vulnerable, and 26 percent say that pregnant women are most vulnerable. Eighteen percent of women say that adults are most likely to be affected, and 9 percent say the elderly are most vulnerable. Five percent of women responded that they do not know who is most likely to be affected by malaria.

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Knowledge of Malaria and Fever Management | 33

Table 4.2 Knowledge of causes of malaria and people most likely to be seriously affected by malaria

Among women age 15-49 who have ever heard of malaria, the percentage who cite specific causes of malaria and the people most likely to be affected by malaria, according to background characteristics, Nigeria 2010

Background characteristic

Perceived causes of malaria People most likely to be affected by malaria

Number of women

Mosqui-toes

Stagnant water

Dirty surround-

ings Certain foods Other

Don’t know Children

Pregnant women Adults Elderly Everyone

Don’t know

Age 15-19 79.1 10.9 26.8 7.1 4.6 8.7 57.1 18.2 19.5 8.9 42.8 6.9 992 20-24 81.0 11.1 26.7 5.9 6.3 8.4 66.9 26.7 16.3 9.5 40.7 5.7 1,100 25-29 82.7 12.3 29.2 4.9 6.0 7.6 66.3 30.7 18.5 9.1 42.5 3.6 1,213 30-34 83.0 10.0 24.0 5.8 7.7 7.3 63.1 27.9 16.3 8.1 41.8 4.3 917 35-39 81.7 13.0 26.3 5.2 7.2 7.9 67.0 27.3 17.9 8.9 43.1 2.7 764 40-44 80.2 11.2 25.4 4.5 8.6 7.2 68.1 25.3 20.5 8.9 43.3 3.7 565 45-49 85.5 12.2 25.5 4.2 8.0 5.2 62.2 23.7 16.0 8.8 49.8 5.0 440

Residence Urban 84.5 19.2 32.2 6.6 6.4 5.5 61.8 26.4 21.2 11.8 42.8 3.5 1,772 Rural 80.5 8.2 24.2 5.1 6.7 8.6 65.4 25.8 16.4 7.7 42.9 5.1 4,219

Zone North Central 83.9 8.5 16.2 1.9 3.2 8.4 64.8 40.0 14.1 9.5 29.6 7.9 913 North East 80.8 4.4 30.4 0.3 1.3 9.6 81.8 9.5 42.9 14.2 28.4 5.4 882 North West 86.4 9.6 26.5 0.5 3.8 5.3 77.0 34.7 6.1 5.5 54.1 2.2 1,499 South East 82.7 17.6 22.6 14.1 9.1 5.3 50.5 24.3 10.0 12.6 37.5 5.0 678 South South 87.4 17.0 39.7 9.6 6.8 4.8 68.1 34.6 15.5 8.1 39.3 6.0 929 South West 68.6 13.8 23.6 11.0 16.0 12.8 37.9 9.4 23.9 7.2 56.3 3.3 1,089

Areas for LLIN malaria

campaigns World Bank Booster1 85.7 10.6 32.5 4.1 3.4 6.8 70.2 38.7 11.0 8.4 48.0 6.1 1,386 Others with campaigns2 83.7 7.6 21.8 3.0 7.7 7.3 68.7 22.2 19.9 9.8 38.9 3.1 1,119 Others with no campaigns3 79.4 13.1 25.7 6.9 7.5 8.2 60.6 22.2 19.9 8.8 42.0 4.5 3,485

Education No education 79.6 4.4 19.9 1.8 4.6 10.0 71.9 23.4 16.8 8.2 41.6 4.5 2,457 Primary 76.0 11.0 23.4 7.9 9.7 9.8 59.2 26.8 17.3 9.5 43.7 5.6 1,019 Secondary 84.2 17.6 33.4 8.6 7.4 5.5 58.8 26.6 19.6 8.7 43.2 4.9 2,033 More than secondary 93.5 22.4 38.9 6.7 6.8 1.1 60.1 35.0 16.9 11.9 45.7 2.3 481

Wealth quintile Lowest 81.7 4.3 16.2 1.4 1.1 10.2 74.3 20.0 20.7 8.9 38.9 6.2 1,059 Second 79.8 5.4 21.1 3.9 6.2 10.0 69.5 26.3 17.1 8.5 43.4 4.7 1,057 Middle 76.9 6.9 23.9 5.5 8.7 9.6 63.1 23.2 16.2 7.1 43.4 4.4 1,187 Fourth 81.5 16.3 30.3 8.3 8.0 6.8 59.1 29.0 15.9 9.9 44.6 5.7 1,238 Highest 87.0 20.7 37.1 7.4 8.1 3.4 58.9 29.9 19.4 9.9 43.2 2.7 1,450

Total 81.7 11.5 26.6 5.5 6.6 7.7 64.4 26.0 17.9 8.9 42.8 4.6 5,991

1 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers.2 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 3 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

4.1.3 Knowledge of Ways to Avoid Malaria

Women were also asked during the survey if they know of ways to avoid getting malaria. Those who knew ways to avoid getting malaria were further asked to name specific ways. Table 4.3 shows responses provided by women age 15 to 49.

Ninety-two percent of women described ways to avoid getting malaria. Although the percentage of women who say there are ways to avoid getting malaria does not vary much by age or residence, greater variation is observed among zones—from 85 percent of women in South West reporting that they know ways to avoid malaria to 97 percent of women in North West. Women living in areas with LLIN malaria campaigns are somewhat more likely to report that there are ways to avoid malaria than women who live in areas without campaigns. Women with a primary education are least likely to report that there are ways to avoid malaria compared with women who have either no education or else a secondary or higher education.

Page 48: Nigeria Malaria Indicator Survey [MIS8]

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.017

.918

.323

.910

.52.

8 28

.98.

49.

310

.53.

640

9

Res

iden

ce

U

rban

94

.1

1,77

2 59

.720

.530

.022

.315

.63.

1 40

.14.

911

.16.

93.

01,

668

Ru

ral

91.2

4,

219

62.3

16.1

16.2

27.9

11.3

2.6

27.2

8.1

6.8

7.5

3.6

3,84

7

Zon

e

N

orth

Cen

tral

92.9

91

3 39

.832

.622

.711

.417

.26.

5 26

.02.

48.

24.

64.

484

8

Nor

th E

ast

92.3

88

2 90

.21.

028

.265

.427

.82.

4 25

.40.

10.

40.

40.

981

4

Nor

th W

est

96.5

1,

499

66.9

16.7

10.9

34.3

4.6

1.8

28.0

17.8

4.6

5.1

1.7

1,44

7

Sout

h Ea

st

92.7

67

8 54

.127

.021

.412

.09.

72.

6 34

.44.

014

.111

.95.

662

9

Sout

h So

uth

91.7

92

9 77

.29.

724

.114

.512

.82.

0 41

.68.

116

.07.

62.

285

3

Sout

h W

est

84.9

1,

089

38.4

19.6

22.0

13.1

9.4

1.9

33.9

2.2

9.0

15.8

7.0

925

Area

s fo

r LL

IN m

alar

ia

cam

paig

ns

W

orld

Ban

k Bo

oste

r1 92

.7

1,38

6 75

.421

.517

.926

.06.

91.

8 33

.221

.73.

63.

71.

81,

285

O

ther

s w

ith c

ampa

igns

2 95

.2

1,11

9 59

.824

.517

.627

.712

.71.

7 26

.10.

77.

19.

12.

31,

066

O

ther

s w

ith n

o ca

mpa

igns

3 90

.8

3,48

5 56

.413

.422

.325

.814

.93.

5 32

.03.

410

.38.

14.

43,

165

Edu

catio

n

No

educ

atio

n 92

.0

2,45

7 64

.315

.611

.536

.810

.61.

7 19

.68.

22.

35.

73.

42,

261

Pr

imar

y 88

.7

1,01

9 57

.614

.719

.521

.612

.33.

2 29

.65.

99.

28.

84.

990

4

Seco

ndar

y 92

.4

2,03

3 59

.917

.526

.417

.913

.72.

8 40

.06.

511

.68.

43.

31,

878

M

ore

than

sec

onda

ry

98.1

48

1 62

.230

.840

.117

.518

.77.

1 53

.66.

719

.97.

80.

847

2

Wea

lth q

uint

ile

Lo

wes

t 92

.8

1,05

9 62

.815

.010

.541

.914

.42.

0 15

.97.

51.

03.

23.

998

3

Seco

nd

90.2

1,

057

66.3

14.9

15.3

33.9

11.5

2.4

21.2

7.2

5.1

6.3

2.9

954

M

iddl

e 90

.0

1,18

7 63

.713

.015

.125

.810

.72.

7 28

.96.

86.

39.

33.

71,

068

Fo

urth

91

.1

1,23

8 60

.217

.121

.519

.411

.12.

6 36

.47.

611

.18.

65.

11,

127

H

ighe

st

95.4

1,

450

56.7

24.5

33.9

15.6

14.9

3.8

46.2

6.7

14.1

8.3

1.7

1,38

3

Tot

al

92.1

5,

991

61.5

17.4

20.3

26.2

12.6

2.8

31.1

7.1

8.1

7.3

3.4

5,51

5

1 Wor

ld B

ank

Boos

ter L

LIN

cam

paig

n st

ates

incl

ude

Akw

a Ib

om, A

nam

bra,

Bau

chi,

Gom

be, J

igaw

a, K

ano,

and

Riv

ers.

2 Sta

tes

with

oth

er L

LIN

cam

paig

ns in

clud

e Ad

amaw

a, E

kiti,

Kad

una,

Keb

bi, N

iger

, Ogu

n, a

nd S

okot

o.

3 Sta

tes

with

out L

LIN

cam

paig

ns a

t the

tim

e of

the

NM

IS in

clud

e Ab

ia, B

ayel

sa, B

enue

, Bor

no, C

ross

Riv

ers,

Del

ta, E

bony

i, Ed

o, E

nugu

, FC

T, Im

o, K

atsin

a, K

ogi,

Kwar

a, L

agos

, Nas

araw

a, O

ndo,

Osu

n, O

yo, P

late

au, T

arab

a, Y

obe,

an

d Za

mfa

ra.

34 | Knowledge of Malaria and Fever Management

Page 49: Nigeria Malaria Indicator Survey [MIS8]

Knowledge of Malaria and Fever Management | 35

When asked to cite specific ways to avoid getting malaria, 62 percent of women say sleeping under a mosquito net, while other responses include keeping the surroundings clean (31 percent), using mosquito coils (26 percent), using insecticide spray (20 percent), sleeping under an ITN or LLIN (17 percent), keeping the doors and windows closed (13 percent), eliminating stagnant water around living areas (8 percent), cutting the grass (7 percent), and using insect repellent (3 percent). The percentage of women who mention sleeping under a mosquito net as a way to avoid malaria varies greatly among zones, ranging from 38 percent in South West to 90 percent in North East. Seventy-five percent of women living in areas with the World Bank Booster campaign say that sleeping under a mosquito net is a way to avoid getting malaria, compared with 60 percent of women in other net campaign areas, and 56 percent of women in areas with no campaign.

Women who said there are ways to avoid getting malaria were also asked to cite specific ways for pregnant women to avoid getting malaria. Fifty-eight percent of women report that sleeping under a mosquito net helps pregnant women avoid getting malaria, while 28 percent say keeping the environment clean, 22 percent say taking SP/Fansidar as a part of antenatal care, 16 percent say sleeping under an ITN or LLIN, and 4 percent say taking daraprim tablets are ways for pregnant women to avoid getting malaria (Table 4.4). Women who live in areas with the World Bank Booster campaign are more likely than women who live in other areas to report that sleeping under a mosquito net (72 percent) and taking SP/Fansidar as a part of antenatal care (32 percent) are ways pregnant women can avoid getting malaria.

Table 4.4 Knowledge of ways pregnant women can prevent getting malaria

Among women age 15-49 who say there are ways to avoid getting malaria, the percentage who cite specific ways that pregnant women can prevent getting malaria, by background characteristics, Nigeria 2010

Background characteristic

Sleep under mosquito net

Sleep under ITN/LLIN

Keep environment

clean

Take SP/ Fansidar

given during antenatal

care

Take daraprim tablets

(Sunday-Sunday

medicine) Other Don’t know Number of

women

Age 15-19 51.2 16.5 25.0 15.9 4.4 2.2 21.4 897 20-24 57.5 17.6 26.3 21.5 3.4 4.9 11.5 1,016 25-29 61.2 15.6 31.1 24.1 3.4 5.0 8.1 1,122 30-34 57.2 17.0 24.5 26.4 5.8 5.6 8.4 846 35-39 60.1 14.1 26.6 23.4 3.8 6.7 6.8 697 40-44 61.4 17.1 32.6 19.6 3.1 3.8 7.5 528 45-49 58.3 17.5 31.3 19.8 5.1 4.2 8.9 409

Residence Urban 54.3 19.1 36.9 24.2 4.4 4.8 9.9 1,668 Rural 59.5 15.3 23.8 20.7 4.0 4.6 11.2 3,847

Zone North Central 35.3 34.8 26.6 18.9 2.8 3.7 12.2 848 North East 93.7 0.6 37.5 4.6 1.3 0.8 2.6 814 North West 66.3 17.3 24.5 18.9 3.3 3.9 7.5 1,447 South East 45.6 20.3 22.9 40.4 10.7 5.2 15.0 629 South South 70.5 9.3 30.2 30.3 7.4 3.6 7.4 853 South West 30.9 16.2 26.7 23.6 1.4 10.7 22.1 925

Areas for LLIN malaria

campaigns World Bank Booster1 71.9 20.9 28.4 31.6 2.3 1.5 5.5 1,285 Others with campaigns2 56.5 24.3 23.6 8.3 2.2 7.9 6.4 1,066 Others with no campaigns3 52.7 12.0 28.9 22.4 5.4 4.9 14.4 3,165

Education No education 64.9 16.0 21.9 12.4 2.3 4.2 8.7 2,261 Primary 52.9 13.8 27.2 25.9 4.6 5.7 9.9 904 Secondary 52.1 15.7 31.6 28.2 5.3 4.7 14.8 1,878 More than secondary 57.5 26.8 42.3 33.7 7.1 4.4 6.7 472

Wealth quintile Lowest 65.7 15.5 21.8 10.5 1.9 1.5 9.5 983 Second 64.4 14.9 23.2 15.4 2.3 4.0 10.0 954 Middle 59.9 13.1 24.2 22.3 3.9 6.3 10.5 1,068 Fourth 53.7 15.1 27.8 27.7 5.2 5.4 12.9 1,127 Highest 49.9 21.9 38.0 29.0 6.1 5.5 10.8 1,383

Total 57.9 16.4 27.8 21.8 4.1 4.7 10.8 5,515

1 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 2 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 3 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

Page 50: Nigeria Malaria Indicator Survey [MIS8]

36 | Knowledge of Malaria and Fever Management

4.1.4 Knowledge of Malaria Treatment

In the 2010 NMIS, women were asked if malaria can be treated. Women who reported that malaria was treatable were further asked to cite specific drugs that are used to treat adults with malaria and drugs that are used to treat children with malaria. Table 4.5 presents information on women’s knowledge of malaria treatment for adults and children.

Overall, 98 percent of women report that malaria is treatable. Among these women, 38 percent report that chloroquine can be used to treat malaria in adults, and 38 percent also report that aspirin, Panadol, or paracetamol can be used to treat malaria in adults. Other answers regarding malaria medicines for adults include SP/Fansidar (23 percent), ACT (9 percent), and quinine (5 percent), while 23 percent of women who say that malaria can be treated say they do not know of any specific medicine.

As for malaria medicines for children, 44 percent of women say that malaria can be treated with aspirin, Panadol, or paracetamol, while 37 percent say chloroquine, 13 percent say SP/Fansidar, 12 percent say ACT, and 7 percent say quinine. Twenty-three percent of women report that they do not know which medicines can be used to treat malaria in children.

Knowledge of ACT as a drug that can be used to treat malaria is higher among urban than rural women and increases with education and wealth. It is also higher among women in South South than among women in other zones.

Page 51: Nigeria Malaria Indicator Survey [MIS8]

Know

ledg

e of

Mal

aria

and

Fev

er M

anag

emen

t |

37

Tab

le 4

.5 K

now

ledg

e of

mal

aria

trea

tmen

t in

adul

ts a

nd c

hild

ren

Amon

g al

l wom

en a

ge 1

5-49

who

hav

e ev

er h

eard

of m

alar

ia, p

erce

ntag

e w

ho s

ay m

alar

ia c

an b

e tre

ated

, and

am

ong

thos

e w

ho s

ay m

alar

ia c

an b

e tre

ated

, the

per

cent

age

who

cite

spe

cific

med

icin

es th

at c

an b

e gi

ven

to c

hild

ren

and

adul

ts, b

y ba

ckgr

ound

cha

ract

erist

ics,

Nig

eria

201

0

Back

grou

nd

char

acte

ristic

Perc

ent-

age

who

sa

y m

alar

ia

can

be

treat

ed

Num

ber o

f w

omen

Amon

g w

omen

who

say

mal

aria

can

be

treat

ed,

perc

enta

ge w

ho c

ite s

peci

fic m

edic

ines

for a

dults

Am

ong

wom

en w

ho s

ay m

alar

ia c

an b

e tre

ated

, pe

rcen

tage

who

cite

spe

cific

med

icin

es fo

r chi

ldre

n

SP

/ Fa

nsid

ar

Chl

oro-

quin

e Q

uini

ne

AC

T

Aspi

rin/

Pana

dol/

Para

ceta

-m

ol

Oth

er

Don

’t kn

ow

SP/

Fans

idar

C

hlor

o-qu

ine

Qui

nine

A

CT

Aspi

rin/

Pana

dol/

Para

ceta

-m

ol

Oth

er

Don

’t kn

ow

Num

ber o

f w

omen

Age

15

-19

96.5

99

2 18

.7

37.9

4.5

7.2

39.0

5.7

26.9

10.1

32

.65.

46.

844

.66.

730

.995

7

20-2

4 98

.3

1,10

0 24

.7

33.6

3.9

9.1

36.6

7.1

23.1

14.1

34

.25.

510

.644

.04.

825

.31,

082

25

-29

98.6

1,

213

26.7

38

.85.

311

.137

.77.

419

.715

.5

39.0

7.1

13.8

45.7

5.9

18.8

1,19

5

30-3

4 97

.0

917

24.4

37

.27.

011

.233

.87.

624

.213

.3

37.0

9.0

14.1

43.1

6.4

21.2

889

35

-39

98.4

76

4 24

.6

40.4

4.9

9.1

40.1

7.5

20.1

15.4

39

.67.

012

.146

.66.

418

.775

2

40-4

4 97

.8

565

22.4

43

.04.

28.

042

.77.

720

.311

.2

42.7

4.7

11.9

46.9

6.5

19.5

553

45

-49

96.2

44

0 18

.4

42.1

6.3

7.8

35.8

9.5

23.3

12.4

40

.15.

712

.436

.89.

522

.642

3

Res

iden

ce

Urb

an

98.5

1,

772

35.6

47

.05.

715

.037

.13.

913

.419

.2

44.0

7.6

16.0

45.6

4.1

17.3

1,74

5

Rura

l 97

.3

4,21

9 18

.2

34.6

4.8

6.9

38.0

8.7

26.4

10.9

34

.46.

09.

843

.97.

225

.04,

106

Zon

e

N

orth

Cen

tral

97.3

91

3 11

.9

31.4

0.9

7.3

42.6

8.3

26.6

5.8

33.4

2.1

6.6

47.5

7.8

27.3

888

N

orth

Eas

t 96

.4

882

17.3

59

.47.

88.

969

.70.

613

.014

.2

62.1

6.2

8.1

72.2

0.7

13.7

850

N

orth

Wes

t 98

.4

1,49

9 20

.6

29.1

0.8

3.4

27.4

2.7

41.3

14.4

31

.51.

012

.629

.12.

335

.61,

475

So

uth

East

97

.8

678

43.1

42

.25.

710

.49.

35.

917

.117

.9

36.9

8.2

13.2

27.1

4.8

22.9

663

So

uth

Sout

h 97

.8

929

34.8

46

.014

.319

.834

.710

.111

.718

.1

35.9

21.4

19.6

47.1

7.2

13.4

909

So

uth

Wes

t 97

.9

1,08

9 19

.7

31.0

4.1

9.9

42.8

16.6

13.5

10.9

30

.04.

39.

549

.215

.315

.81,

066

Area

s fo

r LL

IN m

alar

ia

cam

paig

ns

Wor

ld B

ank

Boos

ter1

97.0

1,

386

32.6

30

.85.

411

.718

.23.

730

.317

.1

27.5

10.6

22.7

27.0

3.0

27.8

1,34

5

Oth

ers

with

cam

paig

ns2

98.2

1,

119

15.3

41

.63.

18.

361

.19.

517

.49.

5 42

.81.

99.

263

.76.

916

.51,

099

O

ther

s w

ith n

o ca

mpa

igns

3 97

.7

3,48

5 22

.4

40.2

5.6

8.7

37.9

8.0

21.2

13.2

39

.36.

38.

045

.17.

422

.63,

407

Edu

catio

n

N

o ed

ucat

ion

96.4

2,

457

10.8

32

.42.

23.

241

.97.

931

.98.

5 35

.32.

07.

045

.16.

328

.12,

369

Pr

imar

y 97

.6

1,01

9 18

.3

42.4

6.9

4.5

40.3

10.7

19.9

9.8

38.4

6.3

6.9

46.3

9.9

21.4

995

Se

cond

ary

98.8

2,

033

33.7

42

.47.

413

.033

.95.

816

.417

.7

38.4

10.8

14.2

44.2

5.4

19.4

2,00

8

Mor

e th

an s

econ

dary

99

.6

481

53.2

41

.66.

134

.328

.03.

17.

627

.1

39.4

10.8

33.7

37.8

2.7

12.5

479

Wea

lth q

uint

ile

Low

est

97.1

1,

059

9.0

34.8

3.3

2.5

40.0

6.6

33.5

5.8

36.0

3.4

3.6

42.6

5.4

33.1

1,02

8

Seco

nd

96.5

1,

057

12.3

34

.13.

34.

145

.58.

332

.110

.1

34.4

2.7

7.1

47.4

7.5

29.2

1,02

0

Mid

dle

97.1

1,

187

16.9

35

.24.

25.

440

.99.

324

.910

.2

35.4

4.1

9.3

48.8

8.4

20.9

1,15

2

Four

th

98.2

1,

238

29.6

40

.95.

49.

434

.78.

118

.616

.8

39.3

8.2

11.9

42.4

5.5

19.7

1,21

5

Hig

hest

99

.0

1,45

0 41

.6

44.0

8.0

21.1

30.7

4.8

9.5

20.7

39

.911

.922

.241

.85.

014

.41,

435

Tot

al

97.7

5,

991

23.4

38

.35.

19.

337

.87.

322

.613

.4

37.2

6.5

11.6

44.4

6.3

22.7

5,85

1

ACT

= a

rtem

esin

in c

ombi

natio

n th

erap

y 1 W

orld

Ban

k Bo

oste

r LLI

N c

ampa

ign

stat

es in

clud

e Ak

wa

Ibom

, Ana

mbr

a, B

auch

i, G

ombe

, Jig

awa,

Kan

o, a

nd R

iver

s.

2 Sta

tes

with

oth

er L

LIN

cam

paig

ns in

clud

e Ad

amaw

a, E

kiti,

Kad

una,

Keb

bi, N

iger

, Ogu

n, a

nd S

okot

o.

3 Sta

tes

with

out L

LIN

cam

paig

ns a

t the

tim

e of

the

NM

IS in

clud

e Ab

ia, B

ayel

sa, B

enue

, Bor

no, C

ross

Riv

ers,

Del

ta, E

bony

i, Ed

o, E

nugu

, FC

T, Im

o, K

atsin

a, K

ogi,

Kwar

a, L

agos

, Nas

araw

a, O

ndo,

Osu

n, O

yo, P

late

au, T

arab

a, Y

obe,

and

Za

mfa

ra.

| 37Knowledge of Malaria and Fever Management

Page 52: Nigeria Malaria Indicator Survey [MIS8]

38 | Knowledge of Malaria and Fever Management

4.2 EXPOSURE TO MALARIA PREVENTION MESSAGES

A crucial element in the fight to eliminate malaria is the ability to reach the population with information and educational materials. To assess the coverage of communication programmes, women interviewed in the NMIS were asked if they had seen or heard any messages about malaria prevention in the four weeks preceding the survey. Women who had heard or seen malaria prevention messages were then asked to cite specific messages.

Table 4.6 shows that 30 percent of women had heard or seen a malaria prevention message in the four weeks preceding the survey. Among these women, the most common malaria prevention message was the advertisement with the mosquito carrying or ‘backing’ the baby on its back, reported by 22 percent of women who had seen a malaria message. Sixteen percent of women who were exposed to a malaria message cited the ‘Lonart versus malaria’ message, while 14 percent saw the message in which a mosquito takes a child away while the family is sleeping, and 13 percent saw the message in which the king gets slapped. Smaller proportions of women were exposed to other messages.

Table 4.6 Exposure to malaria prevention messages

Among women age 15-49 who have ever heard of malaria, the percentage who have seen or heard any messages about malaria in the four weeks preceding the survey, and among those, the percentage who cite specific messages they saw or heard, by background characteristics, Nigeria 2010

Background characteristic

Percent-age who

have seen or heard

messages about

malaria in the last 4

weeks

Number of

women

Among women who have seen or heard any messages about malaria, percentage who cite messages

Mosquito backing

baby

Man playing drafts with

mosquito

Mosquito appears in family picture

Woman wearing

mosquito net as clothes going to market

(billboard)

Friends playing drafts, small friend

slaps big friend (Mr.

Calypso)

Mosquito takes child away while

family is sleeping

Woman wearing

mosquito net as clothes going to market (tele-vision)

Woman tells

husband1

The king gets

slapped

Lonart versus malaria Other

Don’t know

Number of

women

Age 15-19 25.9 992 24.3 7.5 5.0 1.9 11.0 10.9 1.5 4.0 12.0 17.2 4.8 12.7 257 20-24 31.8 1,100 22.5 6.6 7.2 2.8 6.0 14.5 2.0 2.9 15.5 14.6 5.0 13.0 349 25-29 29.7 1,213 23.5 9.4 6.2 2.6 9.2 14.8 2.0 4.2 13.8 18.5 3.4 10.8 360 30-34 28.9 917 21.8 3.4 6.8 3.3 7.1 12.5 3.0 2.6 12.6 16.3 6.8 15.7 265 35-39 28.8 764 17.3 6.1 7.5 3.7 4.9 13.1 1.5 2.1 10.5 19.1 4.3 14.8 220 40-44 30.9 565 25.5 5.4 7.1 2.9 8.9 18.7 1.7 1.7 10.7 11.3 6.2 10.5 174 45-49 34.7 440 18.4 6.6 4.9 4.3 7.2 10.0 6.7 0.7 12.9 13.6 6.6 21.7 152

Residence Urban 38.2 1,772 21.7 10.2 8.6 3.2 14.5 15.2 3.2 4.2 23.0 27.4 4.1 5.0 678 Rural 26.1 4,219 22.4 4.4 5.2 2.8 3.7 12.6 1.9 2.0 6.7 9.3 5.7 18.9 1,102

Zone North Central 16.7 913 32.2 7.2 0.5 1.3 3.3 9.6 6.5 3.7 27.7 32.5 4.9 8.0 152 North East 12.1 882 7.6 5.6 4.6 3.8 5.9 8.1 2.0 1.6 1.7 1.4 1.2 16.5 106 North West 40.3 1,499 38.1 3.6 13.6 2.4 3.5 30.3 1.8 0.9 3.2 0.1 3.6 24.1 605 South East 33.0 678 12.6 12.0 5.0 10.8 16.3 4.3 2.5 9.2 28.5 9.2 3.9 7.9 224 South South 36.0 929 14.7 11.8 1.6 1.8 5.6 2.5 3.0 1.4 3.3 36.1 5.9 1.7 334 South West 32.9 1,089 8.2 3.6 2.9 0.5 14.2 4.9 1.1 3.6 25.5 26.5 8.7 12.1 358

Areas for LLIN malaria

campaigns World Bank Booster2 47.7 1,386 38.4 9.2 12.8 4.0 6.9 28.1 2.0 2.8 6.0 7.5 1.3 22.5 661 Others with campaigns3 21.5 1,119 13.9 3.3 3.5 0.5 2.6 3.8 0.6 2.6 18.3 11.3 4.4 4.0 240

Others with no campaigns4 25.2 3,485 12.2 5.6 2.5 2.8 9.9 5.3 3.2 3.0 16.6 24.0 8.1 9.6 878

Education No education 23.4 2,457 25.4 1.7 6.9 2.4 1.0 19.7 1.2 0.6 3.1 1.1 4.3 25.2 576 Primary 23.9 1,019 19.7 4.4 4.8 1.4 4.1 8.1 2.9 4.8 8.2 15.6 11.1 9.8 243 Secondary 34.0 2,033 20.4 8.7 7.0 3.8 11.9 11.2 3.0 3.7 16.5 23.7 4.3 8.8 692 More than secondary 55.8 481 21.8 13.8 5.7 3.2 15.1 11.9 3.0 3.7 28.9 29.6 3.2 4.7 268

Wealth quintile Lowest 15.8 1,059 22.3 0.6 5.5 1.6 0.0 21.2 1.7 1.0 1.8 1.3 4.9 33.7 168 Second 21.3 1,057 28.4 1.1 7.4 1.6 1.5 18.6 0.5 1.1 4.3 2.6 7.1 23.0 225 Middle 27.3 1,187 19.8 2.7 5.5 1.4 1.3 10.8 1.5 3.3 3.6 6.0 5.9 18.4 324 Fourth 29.1 1,238 25.9 8.6 8.0 5.2 6.0 12.3 1.6 3.6 13.1 12.6 6.0 13.3 360 Highest 48.4 1,450 19.2 10.6 6.0 3.3 15.6 12.2 4.0 3.3 22.5 30.6 3.6 3.8 702

Total 29.7 5,991 22.1 6.6 6.5 2.9 7.8 13.6 2.4 2.9 12.9 16.2 5.1 13.6 1,779

1 Refers to the message in which a woman tells her husband: ‘You don become doctor and you sabi belle pass me… I pity malaria’.2 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 3 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 4 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

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Knowledge of Malaria and Fever Management | 39

Women who reported hearing or seeing malaria prevention messages in the four weeks preceding the survey were asked to cite the specific place where they were exposed to these messages. The majority of women reported hearing the messages on the radio (63 percent), while 39 percent reported seeing them on television. Fifteen percent of women said they were exposed to messages by a relative, friend, or neighbour or while at school. Seven percent said they had seen messages on billboards.

Table 4.7 Source of exposure to malaria prevention messages

Among women age 15-49 who have seen or heard any messages about malaria in the four weeks preceding the survey, the percentage who cite specific sources of malaria messages, by background characteristics, Nigeria 2010

Background characteristic

Among women who have heard or seen any messages about malaria, percentage who cite specific sources

Radio Tele-vision

Com-munity health exten-sion

worker

Com-munity

oriented re-

source person

Role model care-giver/ com-

munity worker

Mosque/ church

Town an-

nouncer

Com-munity event

Bill-board Poster T-shirt

Leaflet/ fact

sheet/ bro-

chure

Relative/ friend/ neigh-bour/ school Other

Number of

women

Age 15-19 54.1 44.3 1.1 0.0 1.0 0.0 3.3 1.0 9.6 4.4 1.5 0.4 12.3 1.7 257 20-24 61.1 40.5 4.3 0.0 1.1 0.0 8.2 0.4 6.9 4.2 1.5 1.3 17.1 0.4 349 25-29 60.4 41.0 6.1 0.6 1.4 0.4 6.6 0.7 7.4 4.2 1.2 0.2 18.8 0.2 360 30-34 64.6 36.9 3.4 0.4 3.5 0.0 5.3 0.5 6.5 4.4 2.6 0.5 13.3 0.5 265 35-39 69.6 33.2 2.3 0.0 1.1 0.0 6.3 0.0 4.0 4.2 1.0 1.4 14.5 0.0 220 40-44 71.4 32.6 2.3 0.6 0.0 0.9 5.6 1.3 8.9 2.0 3.5 0.9 15.2 0.8 174 45-49 68.6 37.4 1.0 0.0 0.7 1.0 6.8 0.0 7.7 3.6 3.3 0.0 11.6 2.2 152

Residence Urban 45.4 67.9 2.2 0.2 0.4 0.2 4.6 0.4 13.0 3.1 3.0 1.1 11.6 1.3 678 Rural 74.1 20.7 4.0 0.3 1.9 0.3 7.0 0.7 3.7 4.6 1.2 0.5 17.4 0.4 1,102

Zone North Central 47.5 58.3 2.9 0.0 0.5 1.0 1.2 0.1 25.9 1.9 0.5 0.5 4.3 0.4 152 North East 81.9 16.6 3.9 2.0 0.0 0.0 0.5 0.0 0.0 0.0 0.0 0.0 0.0 0.0 106 North West 89.2 20.6 4.7 0.0 2.3 0.3 15.9 1.2 1.0 1.6 0.0 0.0 36.8 1.5 605 South East 72.3 49.3 0.8 0.9 0.2 0.0 0.1 0.0 11.0 4.9 9.9 2.1 0.6 0.0 224 South South 33.6 48.0 2.6 0.0 2.5 0.0 0.4 0.0 9.5 14.0 2.5 0.0 2.0 0.8 334 South West 42.1 52.1 3.4 0.0 0.3 0.4 2.5 0.6 7.5 0.2 0.6 2.0 9.4 0.0 358

Areas for LLIN malaria

campaigns World Bank Booster1 78.1 31.0 5.1 0.5 2.9 0.2 14.6 1.1 4.4 5.8 4.0 0.2 32.8 1.3 661 Others with campaigns2 65.4 31.6 3.8 0.0 0.3 0.0 0.4 0.0 11.3 1.7 0.0 0.0 2.4 0.3 240 Others with no campaigns3 51.3 46.3 1.9 0.1 0.5 0.3 1.3 0.3 8.3 3.2 0.8 1.3 5.5 0.4 878

Education No education 88.4 10.6 3.5 0.4 2.3 0.5 11.0 1.3 1.3 0.7 0.3 0.0 25.2 0.7 576 Primary 66.1 25.3 6.0 0.0 0.4 0.0 3.2 0.0 4.9 4.9 1.3 1.3 11.1 0.2 243 Secondary 49.6 54.9 2.1 0.3 1.3 0.1 4.5 0.0 8.7 5.1 2.2 0.9 10.6 0.8 692 More than secondary 41.3 69.1 3.6 0.0 0.4 0.3 2.3 0.9 18.2 7.2 5.1 1.2 9.3 0.8 268

Wealth quintile Lowest 92.1 1.6 6.1 1.3 1.6 0.0 12.5 2.1 2.5 2.2 0.0 0.0 27.0 0.0 168 Second 87.6 8.0 4.7 0.0 3.5 0.7 8.1 1.1 0.8 3.1 0.0 0.4 22.0 0.5 225 Middle 79.0 12.5 3.8 0.0 1.0 0.0 6.6 0.0 3.7 5.1 0.7 0.0 15.1 0.4 324 Fourth 68.3 36.4 2.0 0.0 2.0 0.4 8.0 0.4 6.0 5.3 2.2 1.0 14.5 1.0 360 Highest 38.5 70.6 2.8 0.3 0.4 0.2 2.7 0.3 12.7 3.5 3.3 1.2 10.6 0.9 702

Total 63.2 38.7 3.3 0.2 1.4 0.3 6.1 0.6 7.2 4.0 1.9 0.7 15.2 0.7 1,779

1 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers.2 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 3 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

4.3 MANAGEMENT OF FEVER AMONG CHILDREN

Most fevers occur at home, and they can rapidly progress to severe illness if treatment is not received promptly. In the 2010 NMIS, women with children under age 5 were asked if any of these children had had a fever in the two weeks preceding the survey and, if so, whether any treatment was sought for the fever. Questions were also asked about blood testing, the types of drugs given to the child, and how soon and for how long the drugs were taken.

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Table 4.8 shows that 35 percent of children had a fever in the two weeks preceding the survey. Of these children, only 5 percent had a blood sample taken from a finger or heel for testing, presumably for a malaria test. Half (49 percent) of the children took antimalarial drugs, though only one quarter of the children (26 percent) took the antimarial drugs the same day or next day after the fever started.

Prevalence of fever is highest among children age 12-23 months and lowest among infants under 1 year. Prevalence is higher in rural than in urban areas and in the North West zone, where half of children under 5 were reported to have had a fever in the two weeks before the survey. Treatment with antimalarial drugs is more likely in urban areas than in rural areas. It is also more common among children whose mothers have more than a secondary education.

The proportion of children under age 5 who had a fever in the two weeks before the survey is higher in the 2010 NMIS (35 percent) than in the 2008 Nigeria Demographic and Health Survey (NDHS) when 16 percent had a fever. Part of the difference could be due to variation in the months of data collection1, while part could be due to random variations from year-to-year in rainfall and mosquito transmission. It is noteworthy that the proportion of children with fever who were treated with antimalarial medicines also increased between the two surveys, from 33 percent in 2008 to 49 percent in 2010.

Table 4.8 Prevalence, diagnosis, and prompt treatment of children with fever

Percentage of children under age 5 with fever in the two weeks preceding the survey, and among children under age 5 with fever, the percentage who had blood taken from a finger or heel, the percentage who took antimalarial drugs, and the percentage who took the drugs the same or next day following the onset of fever, by background characteristics, Nigeria, 2010

Background characteristic

Among children under age 5: Among children under age 5 with fever:

Percentage with fever in the two weeks preceding

the survey Number of

children

Percentage who had blood taken from a finger or heel for testing

Percentage who took antimalarial

drugs

Percentage who took antimalarial

drugs same or next day

Number of children

Age (in months) <12 28.6 1,107 5.7 43.7 24.2 317 12-23 43.2 1,075 8.1 49.9 25.6 465 24-35 38.6 1,021 3.5 48.8 25.3 394 36-47 33.7 1,116 6.5 53.8 31.1 376 48-59 33.7 1,200 3.1 48.6 23.8 404

Sex Male 35.4 2,802 4.9 49.5 25.6 992 Female 35.5 2,717 6.0 48.7 26.4 964

Residence Urban 30.8 1,285 5.4 60.1 30.7 396 Rural 36.8 4,234 5.5 46.4 24.8 1,560

Zone North Central 17.6 850 9.1 39.7 17.8 149 North East 33.2 880 3.5 56.0 13.8 292 North West 49.3 1,777 4.7 54.3 33.3 875 South East 36.5 446 6.8 37.3 16.0 163 South South 38.5 759 5.7 48.5 28.5 292 South West 22.9 807 7.4 33.3 22.3 185

Mother’s education No education 38.8 2,876 3.6 50.6 24.8 1,115 Primary 33.7 1,051 7.4 40.5 21.9 354 Secondary 30.4 1,350 7.7 50.1 30.7 410 More than secondary 31.8 242 11.7 63.7 38.3 77

Wealth quintile Lowest 36.5 1,172 4.4 42.6 19.2 428 Second 35.2 1,187 3.3 55.6 31.4 418 Middle 39.6 1,180 4.8 39.1 16.6 467 Fourth 37.3 1,015 8.5 54.6 29.7 379 Highest 27.5 965 7.2 59.4 39.9 265

Total 35.4 5,519 5.4 49.1 26.0 1,956

1 The NMIS data collection took place from October-December 2010, while the NDHS took place from June-October 2008.

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Knowledge of Malaria and Fever Management | 41

Details on the types and timing of antimalarial drugs given to children to treat fever are provided in Table 4.9. Twenty-nine percent of children under age 5 who had a fever in the two weeks preceding the survey took chloroquine, 11 percent took SP/Fansidar, and 6 percent took ACT.

There was a lag between the onset of fever and initiation of antimalarial drug therapy with children. Generally, only about half of children who were given a particular antimalarial medicine took it on the same day or the next day after getting the fever. Among children who took chloroquine, 15 percent took it the same or next day. Among children taking SP/Fansidar, 6 percent took it the same or next day. For children who took ACT, 3 percent took it the same or next day.

Table 4.9 Type and timing of antimalarial drugs taken by children with fever

Among children under age 5 with fever in the two weeks preceding the survey, the percentage who took specific antimalarial drugs and the percentage who took each type of drug the same or next day after developing fever, by background characteristics, Nigeria, 2010

Background characteristic

Percentage of children who took drug: Percentage of children who took drug the same or next day: Number of

children with fever

SP/ Fansidar

Chloro-quine

Amodia-quine Quinine ACT

Other anti-

malarial SP/

FansidarChloro-quine

Amodia-quine Quinine ACT

Other anti-

malarial

Age (in months) <12 9.4 21.6 1.0 1.3 6.1 6.4 6.5 10.4 0.0 0.6 2.9 4.0 317 12-23 10.7 30.0 1.1 2.0 5.2 4.0 5.9 15.3 0.3 1.3 2.9 1.5 465 24-35 10.3 29.1 0.6 0.7 6.1 5.1 5.8 15.6 0.2 0.4 2.9 2.2 394 36-47 10.5 34.9 2.3 1.3 6.4 2.5 5.3 20.3 1.0 0.0 4.2 1.6 376 48-59 13.1 25.7 1.5 1.3 5.9 4.5 5.8 12.3 0.6 0.2 3.4 1.8 404

Sex Male 11.2 27.4 0.6 2.0 6.9 4.7 5.9 13.8 0.3 0.9 3.9 2.1 992 Female 10.5 29.6 2.0 0.7 4.9 4.1 5.8 16.0 0.6 0.2 2.5 2.2 964

Residence Urban 12.4 30.5 0.6 0.9 12.5 5.1 4.8 15.6 0.0 0.6 7.8 1.9 396 Rural 10.4 28.0 1.5 1.5 4.2 4.2 6.1 14.7 0.5 0.5 2.1 2.2 1,560

Zone North Central 11.6 23.6 0.7 0.5 0.2 4.9 3.2 12.4 0.0 0.0 0.0 2.8 149 North East 4.9 44.9 0.8 0.7 4.1 1.2 1.3 11.1 0.6 0.0 0.0 0.9 292 North West 15.2 32.2 2.3 0.3 4.8 4.2 9.7 20.3 0.7 0.3 2.7 1.5 875 South East 7.6 12.0 0.0 1.6 7.1 9.3 1.7 3.6 0.0 0.6 3.7 6.7 163 South South 10.1 18.9 0.5 6.4 11.5 6.3 4.6 11.8 0.0 2.5 7.5 3.2 292 South West 3.1 18.5 0.4 0.0 8.9 2.9 2.7 12.1 0.4 0.0 6.5 0.6 185

Mother’s education No education 11.2 33.6 1.7 0.3 3.3 3.3 6.2 16.1 0.4 0.2 1.3 1.2 1,115 Primary 7.9 24.5 0.4 2.4 5.4 3.2 4.1 14.5 0.4 0.9 2.1 1.6 354 Secondary 10.4 19.6 1.3 2.5 11.1 7.7 5.5 12.3 0.5 1.4 7.6 4.1 410 More than secondary 21.5 19.6 0.0 4.7 18.2 9.8 10.9 12.5 0.0 0.0 13.0 7.4 77

Wealth quintile Lowest 6.9 32.7 0.9 0.2 2.6 2.0 3.7 15.5 0.0 0.2 0.0 0.5 428 Second 13.4 34.4 2.5 0.9 4.5 3.7 7.7 19.5 0.9 0.7 2.1 1.1 418 Middle 7.7 26.3 1.2 1.0 1.9 3.2 3.8 11.5 0.3 0.1 0.7 1.1 467 Fourth 13.5 25.1 1.1 1.4 10.2 5.6 5.8 14.1 0.8 0.5 6.5 3.1 379 Highest 15.1 21.0 0.6 4.5 14.3 9.9 10.0 13.5 0.0 1.7 10.0 6.7 265

Total 10.9 28.5 1.3 1.3 5.9 4.4 5.8 14.9 0.4 0.5 3.2 2.1 1,956

ACT = Artemisinin combination therapy

4.4 TREATMENT OF FEVER AMONG HOUSEHOLD MEMBERS

In the 2010 NMIS, information was collected about recent fever among all household members. Specifically, for each person listed in the household schedule, the interviewer asked if the person had had a fever in the two weeks preceding the survey and if so, whether the person got treatment for the fever, and if so, where and how much the treatment cost. In interpreting the answers to these questions, it is very important to remember that the information was provided by the respondent to the household interview and not necessarily by the household member who had a recent fever. Although some household interviews are done with several members together, in many cases, the data on fever prevalence, treatment, and cost are proxy reports.

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42 | Knowledge of Malaria and Fever Management

Table 4.10 presents data on the percentage of household members with fever in the two weeks preceding the survey, the percentage who got treatment, information on the first place of treatment, and cost of treatment, by background characteristics. One-quarter of household members were reported to have had a fever in the two weeks preceding the survey. Prevalence is considerably higher among children under age 5 than among older household members. Fever is more common among people in North West than among those in other zones, and least common in North Central.

Ninety-one percent of household members who had a fever got treatment. The majority of people got treatment at a chemist/PMV (57 percent), while one-quarter got treatment at a government hospital, health centre, or clinic (26 percent). The average cost of treatment was 950 Naira.

Table 4.10 Fever and treatment of fever among household members

Percentage of household members reported to have had fever in the two weeks preceding the survey, and among household members with fever, the percentage who receivedtreatment, the first place of treatment, and the average cost of treatment, by background characteristics, Nigeria 2010

Background characteristic

Percent-age with fever in the two weeks

preced-ing the survey Number

Among those with fever,

percent-age who received treatment

Among those with fever, first place of treatment

Average cost of

treatment (in Naira)

Number with fever

Govern-ment

hospital, health centre, clinic

Private hospital, clinic, doctor

Mobile clinic

Chemist, PMV

Shop, drug

hawker

Role model

caregiver, com-

munity worker

Tradi-tional practi-tioner

Self treat-ment at home

Don’t know/ missing

Sex Male 24.6 15,150 91.5 24.5 6.2 0.6 57.7 5.2 0.1 1.3 3.2 1.1 1,019.5 3,406 Female 25.4 15,236 90.2 26.5 5.4 0.7 57.0 5.3 0.1 0.8 2.7 1.4 881.7 3,496

Age <5 35.5 6,207 90.4 31.8 5.1 0.4 55.5 2.6 0.1 0.3 2.5 1.6 871.7 1,991 5-9 26.6 4,691 93.8 24.3 3.4 0.6 61.4 5.8 0.0 0.6 2.7 1.2 683.4 1,170 10-14 19.3 3,638 92.3 22.6 3.8 0.4 62.9 6.8 0.1 0.4 2.4 0.6 700.6 650 15-19 17.7 2,505 87.5 22.1 6.7 1.0 56.1 8.4 0.3 1.4 3.0 1.0 760.3 388 20-24 20.5 2,139 91.4 27.0 8.3 0.4 56.1 4.8 0.0 0.2 2.3 0.9 1,112.4 400 25-29 19.5 2,187 92.0 25.4 5.3 0.8 57.6 5.4 0.3 1.0 2.9 1.3 1,049.6 392 30-34 20.9 1,816 90.0 23.9 7.7 0.7 53.8 7.3 0.7 0.8 4.0 1.3 1,179.7 341 35-39 21.7 1,559 87.9 21.6 8.0 1.0 58.2 6.7 0.0 1.2 2.9 0.5 1,182.5 297 40-44 23.5 1,205 89.7 25.6 3.8 0.6 56.5 6.8 0.0 2.1 2.0 2.5 901.9 254 45-49 22.4 1,007 92.8 24.1 5.3 1.5 59.3 5.7 0.5 1.7 1.6 0.4 1,204.6 209 50-54 26.9 1,019 90.9 17.5 5.5 1.2 57.0 6.2 0.0 4.8 7.0 0.8 1,058.7 249 55-59 22.5 590 84.2 16.3 10.0 1.5 57.3 10.6 0.0 0.0 3.7 0.7 1,388.3 112 60+ 25.5 635 89.3 15.2 8.6 1.0 60.3 3.1 0.0 2.3 7.6 2.0 926.6 145

Residence Urban 22.7 8,097 92.8 21.6 8.6 0.3 59.0 5.2 0.1 0.5 3.8 1.0 1,033.2 1,702 Rural 25.9 22,290 90.2 26.8 4.9 0.8 56.8 5.3 0.2 1.2 2.7 1.3 922.3 5,201

Zone North Central 10.8 5,017 92.3 21.8 19.5 0.4 41.6 3.1 0.0 2.2 10.5 1.0 1,113.5 502 North East 28.1 4,812 89.5 22.6 0.8 1.8 62.2 10.8 0.1 0.1 1.4 0.2 842.0 1,212 North West 34.5 7,956 89.2 41.6 0.5 0.0 50.0 4.5 0.0 0.0 1.6 1.8 749.0 2,450 South East 20.4 3,095 89.4 6.8 11.5 0.5 76.2 0.5 1.1 1.0 1.3 1.0 1,094.3 564 South South 27.8 4,264 94.9 14.6 4.9 1.4 72.9 0.9 0.0 1.4 2.9 0.8 1,310.5 1,124 South West 21.7 5,243 92.2 14.9 15.3 0.3 49.7 9.2 0.1 3.5 5.2 1.8 999.6 1,050

Areas for LLIN malaria

campaigns World Bank Booster1 25.1 6,857 85.7 31.6 2.9 0.0 58.1 3.7 0.0 0.6 2.6 0.5 989.7 1,475 Others with campaigns2 18.0 5,530 91.7 27.3 3.2 0.7 58.6 3.2 0.0 0.3 3.9 2.8 896.7 911

Others with no campaigns3 27.1 18,000 92.5 23.1 7.3 0.9 56.9 6.2 0.2 1.3 2.9 1.2 947.1 4,516

Wealth quintile Lowest 26.8 6,109 86.7 30.3 1.4 1.6 50.8 12.6 0.0 0.3 2.4 0.6 812.9 1,417 Second 24.9 6,045 89.1 27.1 2.2 1.1 57.1 5.9 0.1 1.2 3.9 1.3 870.2 1,340 Middle 25.9 6,074 90.8 28.2 4.9 0.2 56.6 3.4 0.2 1.5 2.2 2.8 873.4 1,426 Fourth 26.3 6,078 93.1 21.4 7.8 0.2 64.5 2.7 0.2 0.7 1.7 0.8 958.4 1,488 Highest 21.2 6,081 95.4 20.2 13.4 0.1 57.4 1.5 0.2 1.5 4.9 0.7 1,271.0 1,232

Total 25.0 30,387 90.8 25.5 5.8 0.7 57.4 5.3 0.1 1.0 3.0 1.3 949.6 6,903

PMV = Patent medicine vendor Note: Total includes 6 people with age missing. Average cost of treatment includes those who received free care. 1 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 2 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 3 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

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Malaria Prevention | 43

MALARIA PREVENTION 5

5.1 MOSQUITO NETS

5.1.1 Background

Use of insecticide-treated nets (ITNs) is one of the most effective measures used to prevent malaria. Between May 2009 and February 2011, the government of Nigeria, with support from several partners, distributed approximately 30 million mosquito nets across the country. In addition, awareness of the importance of net usage has increased, leading to a greater demand for the nets, both treated and untreated. The Federal Ministry of Health (FMoH) plans to distribute an additional 30 million nets across the country by the end of 2011 to achieve universal net coverage, which is defined as one net for every two people (FMoH, 2008b; NMCP, 2011).

5.1.2 Ownership of Mosquito Nets

The 2010 NMIS included questions on bed net ownership and use, type of net and source, and reasons for not using a net, if applicable. In addition, questions were asked to determine who had slept under each net the previous night and, if no one had, the reasons why the net was not used.

Table 5.1 presents information on the percentage of households that have any type of mosquito net, an insecticide-treated net (ITN), and a long-lasting insecticidal net (LLIN), by residence, zone, area for LLIN malaria campaigns, and wealth quintile.

Overall, 44 percent of households have at least one mosquito net, 42 percent have at least one ITN, and 41 percent have at least one LLIN. This implies that almost all ITNs owned by households in Nigeria are LLINs. Figure 5.1 shows that, compared with 2003 and 2008 NDHS surveys, when only 2 and 8 percent, respectively, owned at least one ITN, ownership of mosquito nets has increased quite substantially to the current level of 42 percent (NPC and ORC Macro, 2004; NPC and ICF Macro, 2009). This sharp increase in net ownership by households can be attributed to the LLIN mass distribution campaign supported by the Global Fund, the World Bank, DFID, Support for the National Malaria Control Programme (SuNMaP), and the MDG funds through the government of Nigeria.

Ownership of at least one ITN varies widely by background characteristics. It is notably higher among rural households (45 percent) than among urban households (33 percent). Among zones, it ranges from 20 percent of households in South West to 63 percent of households in North East (Figure 5.2). As expected, the households in LLIN World Bank Booster areas (72 percent) and in other LLIN campaigns (75 percent) are much more likely to own at least one ITN than households in areas where there are no LLIN campaigns (22 percent). Half of the households in the lowest wealth quintile (49 percent) own at least one ITN compared with only one-third of the households in the highest wealth quintile (34 percent).

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44 | Malaria Prevention

Table 5.1 Household possession of mosquito nets

Percentage of households with at least one and more than one mosquito net (treated or untreated), insecticide treated net (ITN), and long-lasting insecticidal net (LLIN), and the average number of nets per household, by background characteristics, Nigeria 2010

Background characteristic

Any type of mosquito net Insecticide treated mosquito nets

(ITN)1 Long-lasting insecticidal net (LLIN)2

Number of households

Percentage with at least

one

Percentage with more than one

Average number of nets per

household

Percentage with at least

one

Percentage with more than one

Average number of ITNs per

household

Percentage with at least

one

Percentage with more than one

Average number of LLINs per household

Residence Urban 35.6 19.8 0.6 33.1 18.5 0.6 32.9 18.4 0.6 1,720 Rural 47.3 29.5 0.9 45.0 27.9 0.9 44.8 27.7 0.9 4,175

Zone North Central 32.7 16.7 0.6 32.1 16.2 0.6 32.1 16.2 0.6 951 North East 67.4 47.9 1.5 62.9 43.7 1.4 61.8 43.1 1.4 858 North West 59.7 39.3 1.2 58.2 38.0 1.1 58.2 38.0 1.1 1,296 South East 35.0 21.3 0.6 32.2 20.1 0.6 32.1 19.9 0.6 678 South South 45.2 21.7 0.8 43.8 21.1 0.7 43.5 21.1 0.7 859 South West 23.7 13.0 0.4 20.3 11.3 0.4 20.2 11.3 0.4 1,253

Areas for LLIN malaria campaigns World Bank Booster3 75.1 50.2 1.5 71.7 47.3 1.4 70.9 46.8 1.4 1,244 Others with campaigns4 76.8 57.3 1.6 75.4 55.3 1.6 75.4 55.3 1.6 981 Others with no campaigns5 24.4 10.6 0.4 22.3 9.5 0.4 22.1 9.5 0.4 3,670

Wealth quintile Lowest 52.4 33.7 1.1 49.3 31.1 1.0 48.7 30.8 1.0 1,116 Second 45.0 28.8 0.9 44.2 28.0 0.9 44.0 27.8 0.9 1,136 Middle 49.3 34.1 1.0 46.3 32.0 0.9 46.2 32.0 0.9 1,128 Fourth 38.7 20.8 0.7 36.1 19.6 0.7 36.0 19.6 0.7 1,182 Highest 35.7 17.9 0.6 33.6 16.7 0.6 33.3 16.6 0.6 1,334

Total 43.9 26.7 0.9 41.5 25.1 0.8 41.3 25.0 0.8 5,895

1 An insecticide-treated net (ITN) is (1) a factory-treated net that does not require any further treatment (LLIN) or (2) a pretreated net obtained within the past 12 months or (3) a net that has been soaked with insecticide within the past 12 months. 2 A long-lasting insecticidal mosquito net (LLIN) is a factory-treated net that does not require any further treatment. 3 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 4 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 5 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

Figure 5.1 Trends in Ownership of ITNs: Percent of Households

with at Least One ITN

Nigeria 2010

2 13

8 9 8

42

33

45

Total Urban Rural0

10

20

30

40

50Percent

2003 NDHS 2008 NDHS 2010 NMIS

Page 59: Nigeria Malaria Indicator Survey [MIS8]

Malaria Prevention | 45

Survey findings also show that the average number of any nets, ITNs, and LLINs is just under one per household. There are no major variations in the average number of nets per household by background characteristics. However, households in the South West zone, those in areas with no LLIN campaigns, and those in the highest wealth quintile have the lowest average number of nets per household.

Figure 5.2 Differentials in the Household Ownership of ITNs

Nigeria 2010

42

3263

5832

4420

7275

22

4944

4636

34

Total

ZoneNorth Central

North EastNorth WestSouth East

South SouthSouth West

LLIN campaign areasWorld Bank Booster

Others with campaignsOthers with no campaigns

Wealth quintileLowestSecondMiddleFourth

Highest

0 20 40 60 80 100

Percent

There are several ways to procure or obtain a mosquito net in Nigeria. A pregnant woman may receive a mosquito net during a routine antenatal care visit. Parents of children under age 5 may receive a net during a routine immunization visit to a health facility. Mosquito nets can also be obtained during mass distribution campaigns, and they can be purchased directly through various avenues. The percent distribution of nets by source, according to background characteristics, is shown in Table 5.2.

Mass net distribution campaigns are the main distribution channel for mosquito nets (56 percent). Other major sources of nets in Nigeria are open markets (19 percent) and primary health centers or health posts (17 percent). At the zonal level, considerable variation exists in source of nets. Only one-quarter of nets in South South are obtained through a net distribution campaign compared with more than seven in ten (71 percent) nets in North West. A primary health centre or health post is the primary source of nets for households in South South (64 percent) – but a source for only 7 percent of nets in North East. The open market is a more significant source of nets in North East (42 percent) than in any other zone. As expected, nets in the World Bank Booster areas (67 percent) and in the areas with other LLIN campaigns (80 percent) are substantially more likely than those in areas with no LLIN campaigns (15 percent) to be obtained from net distribution campaigns. The main sources for nets in areas with no LLIN campaigns are the open market (46 percent) followed by primary health centres or health posts (22 percent).

Page 60: Nigeria Malaria Indicator Survey [MIS8]

48 |

Mal

aria

Pre

vent

ion

Tab

le 5

.2 S

ourc

e an

d co

st o

f mos

quito

net

s

Per

cent

dist

ribut

ion

of n

ets

by th

e ty

pe o

f pla

ce w

here

net

was

obt

aine

d, th

e pe

rcen

tage

of n

ets

obta

ined

for f

ree,

and

ave

rage

cos

t of n

ets,

by

back

grou

nd c

hara

cter

istic

s, N

iger

ia 2

010

Back

grou

nd

char

acte

ristic

Plac

e ne

t was

obt

aine

d

Perc

ent-

age

of fr

ee

nets

Aver

age

cost

of

net1

Num

ber o

f ne

ts

Net

dist

ri-bu

tion

cam

paig

n

Prim

ary

heal

th

cent

re/

heal

th

post

Gov

ern-

men

t ho

spita

l Pr

ivat

e ho

spita

l

NG

O/

miss

ion

clin

ic

Mos

que/

ch

urch

Ph

arm

acy

Pate

nt

med

icin

e st

ore

Shop

/ su

per-

mar

ket

Ope

n m

arke

t H

awke

r O

ther

Don

’t kn

ow/

Miss

ing

Tota

l

Res

iden

ce

Urb

an

50.9

17

.7

4.1

0.5

0.6

0.4

0.5

0.6

0.6

20.5

1.

20.

22.

010

0.0

72.5

165.

21,

105

Ru

ral

57.3

16

.9

1.9

0.1

0.2

0.1

0.1

0.1

0.8

18.3

1.

20.

42.

610

0.0

76.4

124.

23,

918

Reg

ion

Nor

th C

entra

l 67

.4

11.0

3.

6 0.

30.

70.

30.

20.

10.

813

.9

0.4

0.1

1.2

100.

082

.512

8.7

549

N

orth

Eas

t 45

.1

7.3

0.6

0.1

0.0

0.0

0.0

0.0

0.8

42.2

2.

60.

11.

210

0.0

52.9

251.

61,

307

N

orth

Wes

t 70

.6

7.9

2.6

0.1

0.0

0.2

0.0

0.0

0.8

13.4

0.

70.

13.

610

0.0

81.3

77.4

1,53

9

Sout

h Ea

st

63.2

19

.4

2.0

0.5

1.2

0.7

0.6

1.0

1.0

6.9

0.7

2.1

0.5

100.

085

.110

0.0

439

So

uth

Sout

h 24

.5

63.9

3.

6 0.

20.

50.

30.

00.

80.

63.

9 0.

40.

40.

910

0.0

91.8

59.8

649

So

uth

Wes

t 60

.5

15.0

3.

6 0.

40.

50.

21.

10.

30.

39.

9 1.

30.

36.

610

0.0

79.4

124.

054

1

Area

s fo

r LL

IN m

alar

ia

cam

paig

ns

Wor

ld b

ank

boos

ters

2 67

.4

18.5

1.

0 0.

00.

30.

00.

00.

10.

49.

8 0.

10.

12.

410

0.0

87.3

53.8

1,92

0

Oth

ers

with

cam

paig

ns3

79.8

11

.3

1.9

0.2

0.0

0.2

0.0

0.1

0.2

4.0

0.0

0.0

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100.

092

.631

.01,

611

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ther

s w

ith n

o ca

mpa

igns

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.3

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50.

70.

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3.9

1.1

2.7

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042

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1,49

3

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lth q

uint

ile

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est

47.9

3.

2 0.

9 0.

00.

00.

00.

00.

01.

242

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2.1

0.0

2.6

100.

053

.123

4.0

1,18

6

Seco

nd

63.6

14

.9

1.5

0.0

0.0

0.1

0.0

0.0

0.8

15.3

1.

50.

12.

310

0.0

80.6

115.

91,

026

M

iddl

e 61

.8

21.1

2.

4 0.

20.

30.

20.

10.

70.

38.

6 0.

50.

23.

410

0.0

84.0

74.6

1,16

5

Four

th

53.3

25

.4

3.3

0.0

0.8

0.5

0.0

0.1

0.4

12.5

1.

01.

41.

210

0.0

82.9

101.

782

7

Hig

hest

52

.2

25.7

4.

5 0.

90.

60.

31.

10.

41.

010

.1

0.6

0.4

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100.

082

.412

3.2

819

Tot

al

55.9

17

.1

2.4

0.2

0.3

0.2

0.2

0.2

0.7

18.8

1.

20.

42.

410

0.0

75.5

133.

35,

024

1 Incl

udes

net

s ob

tain

ed fo

r fre

e. C

ost i

s in

Nig

eria

n na

ira.

2 Wor

ld B

ank

Boos

ter L

LIN

cam

paig

n St

ates

incl

ude

Akw

a Ib

om, A

nam

bra,

Bau

chi,

Gom

be, J

igaw

a, K

ano,

and

Riv

ers.

3 S

tate

s w

ith o

ther

LLI

N c

ampa

igns

incl

ude

Adam

awa,

Eki

ti, K

adun

a, K

ebbi

, Nig

er, O

gun,

and

Sok

oto.

4 S

tate

s w

ithou

t LLI

N c

ampa

igns

at t

he ti

me

of th

e N

MIS

incl

ude

Abia

, Bay

elsa

, Ben

ue, B

orno

, Cro

ss R

iver

s, D

elta

, Ebo

nyi,

Edo,

Enu

gu, F

CT,

Imo,

Kat

sina,

Kog

i, Kw

ara,

Lag

os, N

asar

awa,

Ond

o, O

sun,

Oyo

, Pla

teau

, Tar

aba,

Yob

e, a

nd

Zam

fara

.

46 | Malaria Prevention

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Malaria Prevention | 47

Households in the highest wealth quintile (26 percent of nets) are more likely than those in the lowest quintile (3 percent of nets) to obtain mosquito nets from a primary health centre or health post. On the other hand, poorer households are much more likely (42 percent of nets among poorer households) than all other households (9 to 15 percent) to obtain their nets from the open market.

Table 5.2 also shows that 76 percent of nets in Nigeria are obtained at no cost. Including free nets into the calculation of the average, the average cost for one net is 133 naira.

5.1.3 Indoor Residual Spraying

As part of its efforts towards combating malaria in Nigeria, the Federal Ministry of Health has included indoor residual spraying (IRS) as a prevention strategy. IRS is a procedure in which the interior walls are sprayed with a chemical that has a long-lasting effect against mosquitoes. In the 2010 NMIS, information was collected on household IRS in the 12 months before the survey. Table 5.3 presents the findings.

Table 5.3 Indoor residual spraying against mosquitoes

Percentage of households in which someone has come into the dwelling to spray the interior walls against mosquitoes (IRS) in the past 12 months, and the percentage of households with at least one ITN and/or IRS in the past 12 months, by background characteristics, Nigeria 2010

Background characteristic

Percentage of households

with IRS1 in the past 12 months

Percentage of households with at least

one ITN2 and/or IRS in the past 12

months Number of households

Residence Urban 0.5 33.3 1,720 Rural 0.8 45.2 4,175

Zone North Central 0.3 32.2 951 North East 0.1 62.9 858 North West 0.5 58.5 1,296 South East 0.5 32.4 678 South South 2.9 44.2 859 South West 0.2 20.4 1,253

Areas for LLIN malaria campaigns

World Bank Booster3 1.7 71.8 1,244 Others with campaigns4 0.7 75.7 981 Others with no campaigns5 0.4 22.5 3,670

Wealth quintile Lowest 0.4 49.5 1,116 Second 0.1 44.2 1,136 Middle 0.6 46.5 1,128 Fourth 1.4 36.5 1,182 Highest 1.1 33.8 1,334

Total 0.7 41.7 5,895

1 Indoor residual spraying (IRS) is limited to spraying conducted by a government, private, or nongovernmental organization. 2 An insecticide-treated net (ITN) is (1) a factory-treated net that does not require any further treatment (LLIN), (2) a pretreated net obtained within the past 12 months, or (3) a net that has been soaked with insecticide within the past 12 months. 3 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 4 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 5 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

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48 | Malaria Prevention

Overall, less than 1 percent of the households report that they have had IRS in the prior 12 months. There are no major variations by background characteristics, mainly because of the very small number of households in which someone has come into the dwelling to spray the interior walls against mosquitoes in the past year.

More than four in ten (42 percent) of households surveyed in the 2010 NMIS have at least one ITN and/or have had IRS in the last 12 months. This percentage is higher among rural (45 percent) than urban households (33 percent). Looking at zonal variations, the percentage of households with at least one ITN and/or IRS in the preceding 12 months is lowest in South West (20 percent) and highest in North East (63 percent). In the LLIN World Bank Booster areas (72 percent) and in other areas with LLIN campaigns (76 percent), the households are much more likely to own at least one ITN than in areas where there are no LLIN campaigns (23 percent). About one-third of households in the highest wealth quintile (34 percent) have at least one ITN and/or had IRS in the past 12 months, compared with half of the households in the lowest wealth quintile.

Table 5.4 shows the source of indoor residual spraying by organization. Two-thirds (65 percent) of the households that had IRS in the previous 12 months report that their dwellings were sprayed by a government worker or program, and one-fourth (25 percent) report that spraying was done by a private company.

Table 5.4 Source of indoor residual spraying by organization

Among households in which someone has come into the dwelling to spray interior walls against mosquitoes in the past 12 months, percentage who received the spraying from various organizations, Nigeria 2010

Organization which sprayed dwelling

Percent distribution of sources of IRS

Number of households

sprayed in past 12 months

Government worker or

program 65.4 31 Private company 24.8 12 Other 5.3 2 Don’t know/missing 4.5 2

Total 100.0 47

5.1.4 Use of Mosquito Nets by Persons in the Household

The 2010 NMIS collected information on the use of mosquito nets by persons in the sampled households. Table 5.5 shows the percentages of the de facto household population that slept the night before the survey (1) under a mosquito net, (2) under an ITN, (3) under an LLIN, and (4) under an ITN or in a dwelling that underwent IRS in the past 12 months, by background characteristics. It also shows the percentage of the de facto household population that slept under an ITN the night before the survey among those who live in households with at least one ITN, by background characteristics.

Overall, 24 percent of the household population slept under any type of net the previous night; 23 percent, each, slept (1) under an ITN, (2) under an LLIN, or (3) under an ITN or in a dwelling that was sprayed with insecticides. Young children under age 5 and 35-39 year-olds are more likely to sleep under any net, under an ITN, under an LLIN, or under an ITN or in a dwelling that was sprayed with insecticides (28 to 30 percent) than other people in the household. Females (25 to 26 percent) are more likely than males (21 to 22 percent) to sleep under any of the specified nets or in a dwelling that was sprayed. The percentage of the household population that slept the night before under any of the specified nets or in a dwelling with IRS is higher among rural areas (25 to 27 percent) than urban areas (16 to 17 percent). Looking at zonal variations, the percentage of the household population that used a net the night

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Malaria Prevention | 49

before or who live in a dwelling that was sprayed in the last 12 months is lowest in South West (8 to 9 percent) and highest in North East (42 to 46 percent). The populations in LLIN World Bank Booster areas (40 to 43 percent) and in areas with other LLIN campaigns (41 percent) are much more likely to sleep under a net or in a dwelling with IRS than the populations in areas where there are no LLIN campaigns (11-12 percent). Only 13 to 14 percent of the household population in the highest wealth quintile used a mosquito net or slept in a dwelling sprayed with IRS compared with 30 to 33 percent of the population in the lowest wealth quintile.

When net usage is measured only among the population in households with at least one ITN, the percentage of those who slept under an ITN increases. Half the population that lives in households with at least one ITN actually slept under an ITN the night before the survey (49 percent). The variation by background characteristics is similar to that observed for net usage among the whole population.

Table 5.5 Use of mosquito nets by persons in the household

Percentage of the de facto household population who slept the night before the survey under a mosquito net (treated or untreated), under an insecticide-treated net (ITN), under a long-lasting insecticidal net (LLIN), and under an ITN or in a dwelling in which the interior walls have been sprayed against mosquitoes (IRS) in the past 12 months; and among the de facto household population in households with at least one ITN, the percentage who slept under an ITN the night before the survey, by background characteristics, Nigeria 2010

Background characteristic

Household population

Household population in households with at least one

ITN1

Percentage who slept

under any net last night

Percentage who slept

under an ITN1 last night

Percentage who slept

under an LLIN2 last night

Percentage who slept

under an ITN1 last night or in a

dwelling sprayed with

IRS3 in the past 12 months Number

Percentage who slept

under an ITN1 last night Number

Age (in years) <5 30.3 28.9 28.7 29.2 6,234 58.6 3,078 5-14 19.2 18.3 18.2 18.6 8,303 37.8 4,012 15-34 23.1 22.0 21.9 22.4 8,625 48.3 3,935 35-39 28.6 27.6 27.5 28.0 3,792 56.1 1,867 50+ 21.6 20.7 20.5 20.8 3,413 56.8 1,243

Sex Male 21.9 20.7 20.6 21.1 15,150 44.7 7,025 Female 26.2 25.1 25.0 25.4 15,236 53.9 7,112

Residence Urban 17.0 16.3 16.2 16.5 8,097 42.4 3,116 Rural 26.6 25.4 25.2 25.7 22,290 51.3 11,021

Zone North Central 14.4 14.2 14.2 14.4 5,017 38.5 1,852 North East 45.5 42.2 41.7 41.7 4,812 62.8 3,233 North West 32.5 31.4 31.4 32.1 7,956 53.9 4,638 South East 13.2 12.7 12.5 12.8 3,095 34.6 1,138 South South 22.0 21.4 21.2 22.5 4,264 46.2 1,977 South West 8.9 8.0 8.0 8.2 5,243 32.2 1,299

Areas for LLIN malaria campaigns World Bank Booster4 43.2 40.4 39.9 40.4 6,857 54.5 5,074 Others with campaigns5 41.1 40.7 40.7 41.2 5,530 50.8 4,433 Others with no campaigns6 11.5 10.8 10.8 11.2 18,000 42.2 4,630

Wealth quintile Lowest 32.7 30.6 30.4 30.7 6,109 60.4 3,096 Second 27.2 26.6 26.5 26.5 6,045 53.4 3,012 Middle 28.9 27.5 27.4 27.8 6,074 52.7 3,167 Fourth 17.6 16.7 16.6 17.4 6,078 39.5 2,571 Highest 13.8 13.3 13.1 14.0 6,081 35.4 2,291

Total 24.0 22.9 22.8 23.3 30,387 49.3 14,137

Total includes three cases with missing information on age.1 An insecticide-treated net (ITN) is (1) a factory-treated net that does not require any further treatment (LLIN), or (2) a pretreated net obtained within the past 12 months, or (3) a net that has been soaked with insecticide within the past 12 months 2 A long-lasting insecticidal mosquito net (LLIN) is a factory-treated net that does not require any further treatment. 3 Indoor residual spraying (IRS) is limited to spraying conducted by a government, private, or nongovernmental organization. 4 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 5 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 6 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

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50 | Malaria Prevention

5.1.5 Use of Mosquito Nets by Children under Age 5

The use of mosquito nets by children under age 5 is summarized in Table 5.6. Thirty percent of children under age 5 in all households are reported to have slept under any net the night before the survey. A similar proportion (29 percent each) slept under an ITN, under an LLIN, or under an ITN or in a dwelling that was sprayed. This percentage of children who slept under any of the specified nets or in a dwelling sprayed with IRS does not vary much by a child’s age or sex. However, it varies by residence, zone, campaign area, and wealth quintile. It is higher among children living in rural than in urban areas, it is highest in North East and lowest in South West, and it is notably higher among children who live in areas with LLIN malaria campaigns than among those who live in areas with no campaigns (Figure 5.3). Children in the highest wealth quintile are the least likely to sleep under any net, under an ITN, under an LLIN, or under an ITN or in a dwelling sprayed with IRS.

Table 5.6 Use of mosquito nets by children

Percentage of children under age 5 who, the night before the survey, slept under a mosquito net (treated or untreated), under an insecticide-treated net (ITN), under a long-lasting insecticidal net (LLIN), and under an ITN or in a dwelling in which the interior walls have been sprayed against mosquitoes in the past 12 months; and among children under age 5 in households with at least one ITN, the percentage who slept under an ITN the night before the survey, by background characteristics, Nigeria 2010

Background characteristic

Children under age 5 in all households

Children under age 5 in households with at least one

ITN1

Percentage who slept

under any net last night

Percentage who slept

under an ITN1 last night

Percentage who slept

under an LLIN2 last night

Percentage who slept

under an ITN1 last night or in

a dwelling sprayed with

IRS3 in the past 12 months

Number of children

Percentage who slept

under an ITN1 last night

Number of children

Age (in months) <12 29.7 27.9 27.6 28.1 1,172 59.0 554 12-23 32.0 30.8 30.6 31.6 1,185 62.5 584 24-35 33.0 31.4 31.2 31.9 1,180 61.1 607 36-47 29.1 27.7 27.7 28.3 1,271 57.0 619 48-59 28.2 27.1 27.0 27.5 1,427 54.3 713

Sex Male 30.4 29.0 28.8 29.4 3,154 57.6 1,589 Female 30.2 28.8 28.6 29.4 3,080 59.6 1,489

Residence Urban 23.4 22.5 22.2 22.9 1,420 52.8 604 Rural 32.3 30.8 30.6 31.3 4,815 60.0 2,474

Zone North Central 18.9 18.9 18.9 19.1 977 49.5 373 North East 55.7 51.3 50.4 51.3 968 73.5 675 North West 37.6 36.6 36.6 37.1 2,008 63.3 1,162 South East 17.4 16.8 16.1 17.6 503 42.0 201 South South 26.7 25.8 25.7 26.7 896 55.1 420 South West 9.7 8.1 8.1 8.7 883 28.8 248

Areas for LLIN malaria campaigns World Bank Booster4 53.8 50.2 49.5 50.6 1,476 65.5 1,132 Others with campaigns5 49.1 48.7 48.7 49.3 1,147 60.5 922 Others with no campaigns6 14.7 13.9 13.9 14.4 3,611 49.1 1,024

Wealth quintile Lowest 36.1 33.3 33.0 33.6 1,347 72.8 616 Second 32.2 31.7 31.6 31.7 1,335 62.7 676 Middle 37.2 36.0 35.9 36.4 1,353 60.5 804 Fourth 24.0 22.5 22.5 23.4 1,161 47.5 550 Highest 18.5 17.6 17.2 18.5 1,039 42.4 431

Total 30.3 28.9 28.7 29.4 6,234 58.6 3,078

Note: Table is based on children who stayed in the household the night before the interview.1 An insecticide-treated net (ITN) is (1) a factory-treated net that does not require any further treatment (LLIN), or (2) a pretreated net obtained within the past 12 months, or (3) a net that has been soaked with insecticide within the past 12 months. 2 A long-lasting insecticidal mosquito net (LLIN) is a factory-treated net that does not require any further treatment. 3 Indoor residual spraying (IRS) is limited to spraying conducted by a government, private, or nongovernmental organization. 4 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 5 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 6 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

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Malaria Prevention | 51

Figure 5.3 Differentials in ITN Usage among ChildrenUnder Age Five

Nigeria 2010

29

1951

3717

268

5049

14

3332

3623

18

Total

ZoneNorth Central

North EastNorth WestSouth East

South SouthSouth West

LLIN campaign areasWorld Bank Booster

Others with campaignsOthers with no campaigns

Wealth quintileLowestSecondMiddleFourth

Highest

0 10 20 30 40 50 60

Percent

Figure 5.4 shows that, compared with previous DHS surveys, the percentage of children under age 5 who slept under any net has increased steadily and substantially from 6 percent in 2003 to 12 percent in 2008 and to 30 percent in 2010. Furthermore, the percentage of children under age 5 who slept under an ITN increased from 1 percent in 2003 to 6 percent in 2008 and to 29 percent in 2010 (NPC and ORC Macro, 2004; NPC and ICF Macro, 2009).

Among children living in households that own an ITN, 59 percent slept under an ITN the night before the survey. Data do not show a clear trend or pattern in net usage by age or sex of the child. Children in households in urban areas that have at least one ITN are less likely to sleep under an ITN the previous night (53 percent) than children in households in rural areas (60 percent). By zone, this percentage ranges from 29 percent of children in South West to 74 percent of children in North East. Young children in LLIN World Bank Booster areas (66 percent) and in areas with other LLIN campaigns (61 percent) are more likely to sleep under an ITN than children in areas where there are no LLIN campaigns (49 percent). Wealth shows an inverse relationship for ITN usage among children under age 5 in households with at least one ITN. While 73 percent of children in the lowest wealth quintile slept under an ITN the previous night, only 42 percent of children in the highest wealth quintile did so.

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52 | Malaria Prevention

Figure 5.4 Trends in Net Use among Children Under Age Five

Nigeria 2010

6

1

12

6

30 29

Any net ITN0

10

20

30

40

50Percent

2003 NDHS 2008 NDHS 2010 NMIS

5.1.6 Use of Mosquito Nets by Women

Table 5.7 shows the usage of nets by all women age 15-49 years, while Table 5.8 provides similar information for women who were pregnant at the time of the survey.

About three in ten (29 percent) of all women in all households reported that they slept under any net the night before the survey, an increase from about one in ten (9 percent) in the 2008 NDHS. A similar percentage (28 percent) reported that they slept under an ITN the night before the survey, an increase from 4 percent in 2008. The data further show that 28 percent slept under an LLIN the night before the survey, indicating that almost all ITNs are LLINs. Overall, 29 percent of all women slept under an ITN or in a dwelling sprayed with IRS.

Regardless of the type of net (any net, ITN, or LLIN), net usage is higher among rural women (32 to 34 percent) than among urban women (18 to 19 percent). Women in North East (51 to 55 percent) are the most likely to have slept under any of the specified nets the previous night, and women in South West are the least likely (10 to 11 percent). About half of women in the LLIN World Bank Booster areas and in areas with other LLIN campaigns reported that they slept under any net, an ITN, or an LLIN the previous night compared with about one in eight women in areas where there are no LLIN campaigns. Wealth and education show an inverse relationship for net usage among women. For example, 17 percent of women with more than secondary education slept under a net, an ITN, or an LLIN the previous night compared with 42 to 44 percent of women with no education.

When looking at all women in households with at least one ITN, six in ten women slept under an ITN the previous night, an increase from four in ten in 2008. This proportion is highest among rural women (63 percent), women in North East (76 percent), those living in LLIN World Bank Booster areas (68 percent) and in areas with other LLIN campaigns (61 percent), and among uneducated women (72 percent) and poorest women (74 percent).

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Malaria Prevention | 53

Table 5.7 Use of mosquito nets by all women

Percentages of all women age 15-49 who, the night before the survey, slept under a mosquito net (treated or untreated), under an insecticide-treated net (ITN), under a long-lasting insecticidal net (LLIN), and under an ITN or in a dwelling in which the interior walls have been sprayed against mosquitoes in the past 12 months; and among all women age 15-49 in households with at least one ITN, the percentage who slept under an ITN the night before the survey, by background characteristics, Nigeria 2010

Background characteristic

Among all women age 15-49 in all households

Among all women age 15-49 in households with at least one

ITN1

Percentage who slept

under any net last night

Percentage who slept

under an ITN1 last night

Percentage who slept

under an LLIN2 last night

Percentage who slept

under an ITN1 last night or in a

dwelling sprayed with

IRS3 in the past 12 months

Number of women

Percentage who slept

under an ITN1 last night

Number of women

Residence Urban 19.2 18.5 18.4 18.7 1,852 47.3 725 Rural 33.5 32.2 32.0 32.7 4,665 63.2 2,379

Zone North Central 19.6 19.5 19.5 19.7 1,063 50.9 408 North East 54.8 51.5 50.7 51.5 976 76.0 661 North West 42.6 41.5 41.5 42.4 1,628 69.3 975 South East 14.9 14.2 14.0 14.4 700 35.6 279 South South 25.2 24.6 24.4 25.2 983 53.3 455 South West 11.0 10.3 10.3 10.6 1,167 36.9 325

Areas for LLIN malaria campaigns World Bank Booster4 54.6 51.6 51.0 51.7 1,501 68.1 1,137 Others with campaigns5 48.3 48.1 48.1 48.7 1,220 60.7 966 Others with no campaigns6 13.4 12.8 12.7 13.2 3,795 48.6 999

Education No education 43.5 41.8 41.5 42.0 2,772 71.6 1,616 Primary 23.1 21.9 21.8 22.4 1,122 54.8 448 Secondary 17.3 16.9 16.7 17.4 2,126 43.5 825 More than secondary 16.9 16.9 16.9 17.6 493 39.3 211

Wealth quintile Lowest 40.6 38.5 38.1 38.8 1,200 73.8 626 Second 36.5 35.9 35.7 35.9 1,210 68.9 630 Middle 36.0 34.6 34.5 34.9 1,308 65.3 692 Fourth 21.0 20.2 20.2 20.7 1,303 46.9 562 Highest 16.3 15.7 15.6 16.5 1,496 39.7 592

Total 29.4 28.3 28.2 28.7 6,517 59.5 3,103

Note: Table is based on women who stayed in the household the night before the interview.1 An insecticide-treated net (ITN) is (1) a factory-treated net that does not require any further treatment (LLIN), or (2) a pretreated net obtained within the past 12 months, or (3) a net that has been soaked with insecticide within the past 12 months. 2 A long-lasting insecticidal mosquito net (LLIN) is a factory-treated net that does not require any further treatment. 3 Indoor residual spraying (IRS) is limited to spraying conducted by a government, private or nongovernmental organization. 4 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 5 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 6 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

Table 5.8 shows that more than one-third (34 to 35 percent) of pregnant women age 15-49

reported sleeping under any of the specified nets (any net, ITN, or LLIN) the night before the interview. This shows an increase from 12 percent (any net) and 5 percent (an ITN) reported in the 2008 NDHS. Net usage varies by residence, zone, educational attainment, and wealth quintile. Among pregnant women in all households, those in rural areas are more than twice as likely to use any type of the specified nets as their urban counterparts. For example, 39 percent of pregnant women in rural areas slept under an ITN compared with 16 percent in urban areas. Among zones, usage of any net (any net, ITN, or LLIN) is the lowest in the South East (12 percent) and the highest in the North East (47 to 56 percent). About half of pregnant women with no education slept under any of the specified nets the previous night, compared with about one-fifth of pregnant women with any level of education. Looking at wealth, the women in the highest wealth quintile are the least likely to have slept under any of the nets on the previous night (17 to 18 percent).

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54 | Malaria Prevention

Among pregnant women living in households with at least one ITN, 65 percent slept under an ITN the previous night, an increase from 44 percent in 2008. The variation by background characteristics in ITN use by pregnant women in households with at least one ITN follows patterns similar to those observed for pregnant women in all households.

Table 5.8 Use of mosquito nets by pregnant women

Percentages of pregnant women age 15-49 in all households who, the night before the survey, slept under a mosquito net (treated or untreated), under an insecticide-treated net (ITN), under a long-lasting insecticidal net (LLIN), and under an ITN or in a dwelling in which the interior walls have been sprayed against mosquitoes in the past 12 months; and among pregnant women age 15-49 in households with at least one ITN, the percentage who slept under an ITN the night before the survey, by background characteristics, Nigeria 2010

Background characteristic

Among pregnant women age 15-49 in all households

Among pregnant women age 15-49 in households with at

least one ITN1

Percentage who slept

under any net last night

Percentage who slept

under an ITN1 last night

Percentage who slept

under an LLIN2 last night

Percentage who slept

under an ITN1 last night or in a

dwelling sprayed with

IRS3 in the past 12 months

Number of women

Percentage who slept

under an ITN1 last night

Number of women

Residence Urban 16.5 16.1 16.1 16.9 166 38.5 69 Rural 40.7 38.6 38.4 38.9 586 71.3 317

Zone North Central 36.7 36.1 36.1 36.1 134 70.3 69 North East 55.5 47.7 46.8 47.7 130 74.9 83 North West 45.0 44.6 44.6 44.6 217 73.5 132 South East 12.0 12.0 12.0 13.2 57 (29.6) 23 South South 20.5 20.5 20.5 22.0 112 48.1 48 South West 17.1 15.9 15.9 16.5 103 (49.0) 33

Areas for LLIN malaria campaigns World Bank Booster4 58.5 53.0 52.4 53.0 184 74.8 130 Others with campaigns5 68.4 67.1 67.1 67.1 154 79.0 131 Others with no campaigns6 12.8 12.5 12.5 13.3 413 41.3 125

Education No education 49.9 47.0 46.7 47.0 389 78.1 234 Primary 18.8 17.9 17.9 19.2 126 40.8 55 Secondary 20.1 19.7 19.7 20.4 194 51.4 75 More than secondary (20.6) (20.6) (20.6) (20.6) 42 * 22

Wealth quintile Lowest 39.0 36.2 35.6 36.2 174 72.3 87 Second 42.3 40.9 40.9 40.9 136 76.6 73 Middle 53.3 49.9 49.9 50.3 155 76.5 101 Fourth 22.8 22.8 22.8 24.1 143 49.9 65 Highest 17.8 17.0 17.0 17.4 144 40.2 61

Total 35.4 33.6 33.5 34.0 752 65.4 387

Note: Table is based on women who stayed in the household the night before the interview. Figures in parentheses are based on 25-49 unweighted cases. An asterisk indicates that a figure is based on fewer than 25 unweighted cases and has been suppressed. 1 An insecticide-treated net (ITN) is (1) a factory-treated net that does not require any further treatment (LLIN), or (2) a pretreated net obtained within the past 12 months, or (3) a net that has been soaked with insecticide within the past 12 months. 2 A long-lasting insecticidal mosquito net (LLIN) is a factory-treated net that does not require any further treatment. 3 Indoor residual spraying (IRS) is limited to spraying conducted by a government, private or non-governmental organization. 4 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 5 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 6 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

5.1.7 Reasons for Not Using a Mosquito Net

Net ownership does not guarantee usage. Table 5.9 shows the percent distribution of households that own a net that no one slept under during the night preceding the survey, by the main reason for not using the net. Overall, 18 percent of households had at least one net that was not slept under the previous night (data not shown separately), a decrease from 28 percent of households in the 2008 NDHS.

Page 69: Nigeria Malaria Indicator Survey [MIS8]

Mal

aria

Pre

vent

ion

| 5

5

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| 55Malaria Prevention

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56 | Malaria Prevention

The most common reason why no one slept under the household net the previous night is that it was too hot to sleep under the net (18 percent of households), with the percentages being higher among households in North West (31 percent).

Sixteen percent of households reported that the net was too difficult to hang, with the percentage being higher in urban households (23 percent), households in South East (36 percent), and households in the fourth highest wealth quintile (23 percent). Finally, 14 percent of households reported that the net was not needed last night, and 13 percent reported that there were no mosquitoes.

5.2 INTERMITTENT PREVENTIVE TREATMENT OF MALARIA IN PREGNANCY

To reduce the risks of pregnant women getting malaria, the current policy under the National Malaria Control Programme calls for all pregnant women to receive at least two doses of sulfadoxine-pyrimethamine (SP/Fansidar). Women receive SP/Fansidar during their antenatal care visits under directly observed therapy. It is also possible that pregnant women obtain SP/Fansidar from sources outside of antenatal care visits.

Table 5.10 presents the percent distribution of women age 15-49 who had a live birth in the five years preceding the survey by the type of antenatal care provider consulted during the pregnancy for the most recent birth. More than half of women (58 percent) received antenatal care from a skilled provider,

Table 5.10 Antenatal care

Percent distribution of women age 15-49 who had a live birth in the five years preceding the survey by antenatal care (ANC) provider during pregnancy for the mostrecent birth and the percentage receiving antenatal care from a skilled provider for the most recent birth, according to background characteristics, Nigeria 2010

Background characteristic Doctor

Nurse/ midwife

Auxiliary midwife

Commu-nity health extension worker

Traditional birth

attendant

Commu-nity

oriented resource Other No one Missing Total

Percentage receiving antenatal care from

skilled provider1

Number of women

Age at birth <20 6.3 35.5 3.1 2.8 1.7 0.0 0.0 50.3 0.3 100.0 47.7 227 20-34 24.1 29.7 1.9 3.6 1.6 0.4 0.1 37.7 0.9 100.0 59.3 2,475 35-49 22.5 26.9 2.7 2.9 1.6 0.2 0.1 42.0 1.1 100.0 55.1 1,001

Birth order 1 27.2 32.9 2.5 3.2 1.3 0.2 0.2 31.6 0.8 100.0 65.9 604 2-3 23.2 31.8 1.4 3.0 1.8 0.4 0.1 37.5 0.8 100.0 59.4 1,139 4-5 24.0 28.7 2.2 3.6 2.3 0.4 0.1 38.2 0.5 100.0 58.6 959 6+ 17.7 24.8 3.0 3.7 0.8 0.2 0.0 48.4 1.5 100.0 49.1 1,001

Residence Urban 40.2 32.1 1.6 1.9 2.1 0.6 0.1 20.7 0.6 100.0 75.8 873 Rural 17.1 28.4 2.4 3.9 1.4 0.2 0.1 45.5 1.0 100.0 51.8 2,830

Zone North Central 24.0 35.1 0.5 6.7 0.0 0.3 0.0 33.2 0.2 100.0 66.3 591 North East 4.6 18.6 0.4 7.4 0.0 0.0 0.0 67.8 1.2 100.0 31.1 607 North West 7.2 26.2 4.3 0.4 0.0 0.1 0.0 60.9 1.0 100.0 38.0 1,144 South East 43.4 45.6 2.1 1.8 1.1 0.0 0.8 4.5 0.7 100.0 92.8 274 South South 35.7 30.3 3.2 4.4 3.1 0.5 0.3 22.1 0.5 100.0 73.6 530 South West 49.5 32.1 1.0 1.4 7.0 1.0 0.0 6.2 1.8 100.0 84.0 557

Education No education 7.0 20.7 2.4 4.1 0.9 0.3 0.0 63.4 1.2 100.0 34.2 1,929 Primary 29.7 39.8 3.0 2.7 2.9 0.3 0.4 21.0 0.2 100.0 75.2 691 Secondary 42.2 39.5 1.6 3.1 2.1 0.3 0.1 10.1 1.0 100.0 86.5 912 More than secondary 64.0 29.3 0.0 0.5 1.1 0.0 0.4 3.9 0.6 100.0 93.9 170

Wealth quintile Lowest 2.6 12.9 1.6 4.7 0.4 0.1 0.0 76.1 1.6 100.0 21.8 808 Second 11.8 29.3 3.2 3.0 1.4 0.3 0.1 50.4 0.5 100.0 47.4 784 Middle 14.9 37.3 2.1 5.3 1.3 0.2 0.1 38.0 0.8 100.0 59.6 785 Fourth 32.4 41.1 3.0 2.0 3.5 0.1 0.3 17.1 0.4 100.0 78.6 662 Highest 58.7 27.9 1.1 1.4 1.8 0.8 0.1 7.0 1.1 100.0 89.2 664

Total 22.6 29.3 2.2 3.4 1.6 0.3 0.1 39.6 0.9 100.0 57.5 3,703

1 Skilled provider includes doctor, nurse/midwife, auxiliary midwife, and community health extension worker (CHEW).

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Malaria Prevention | 57

40 percent did not receive any antenatal care, and 2 percent received antenatal care from an unskilled provider. Antenatal care is more prevalent in urban than rural areas; 76 percent of women in urban areas received antenatal care from a skilled provider compared with 52 percent of rural women. Among zones, the percentage of women receiving antenatal care from a skilled provider ranges from 31 percent in the North East to 93 percent in the South East. Education and wealth are positively associated with an increase in the percent of women who received antenatal care from a skilled provider. For example, 34 percent of women with no education received antenatal care from a skilled provider contrasted with 94 percent of women with more than a secondary education. Similarly, 22 percent of women in the lowest wealth quintile received antenatal care from a skilled provider contrasted with 89 percent of women in the highest wealth quintile.

The proportion of women receiving antenatal care from a skilled provider is exactly the same as that reported in the 2008 Nigeria Demographic and Health Survey—58 percent. There are only minor differences by the type of provider and by background characteristics.

The 2010 NMIS also included questions about malaria prevention for women with a live birth in the two years preceding the survey. Specifically, they were asked if, during the time they were pregnant with their most recent birth, they had taken any antimalarial medicine to prevent getting malaria during the pregnancy, and if so, what type of antimalarial medicine. If respondents had taken SP/Fansidar, they were further asked how many times they took it and whether they had received it during an antenatal care visit.

Table 5.11 shows the percentages of women age 15-49 with a live birth in the two years preceding the survey who, during the pregnancy, took an antimalarial drug for prevention, took SP/Fansidar, or received intermittent preventive treatment during pregnancy (IPTp). Three in ten women (30 percent) with a live birth in the two years preceding the survey report taking some type of antimalarial medicine to prevent getting malaria during the last pregnancy, higher than the percentage reported in the 2008 NDHS (18 percent). One in five women (20 percent) say they took SP/Fansidar at least once during the pregnancy, compared with 11 percent in 2008. Overall, 15 percent of women say they took SP/Fansidar during an ANC visit.

Women in urban areas (46 percent) are more likely to take any antimalarial drugs during pregnancy compared with their rural counterparts (25 percent). The percentage of women who reported taking antimalarial medicines to prevent malaria during pregnancy ranges from 20 percent in the North East zone to 44 percent in South South. Use of any antimalarials during pregnancy increases dramatically with women’s education, from 16 percent of uneducated women to 65 percent of those with more than secondary education. It also increases with wealth, from 9 percent of the poorest women to 54 percent of the richest women.

Intermittent preventive treatment during pregnancy or IPTp is defined as the percentage of pregnant women who received two or more doses of SP/Fansidar, at least one of which was during an antenatal visit. In the 2010 NMIS, IPTp was estimated at 13 percent, an increase from 8 percent in 2008. Women in urban areas (19 percent), those in South South (20 percent), women with higher than secondary education (29 percent), and women in the highest quintile (24 percent) are more likely to receive IPTp than other women.

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58 | Malaria Prevention

The NMIS 2010 also asked currently pregnant women about the antenatal care provider consulted during their pregnancy and what malaria preventive treatment was obtained (data not shown). Twelve percent of women in the survey were currently pregnant at the time of data collection. The percentage of currently pregnant women who received antenatal care from a skilled is lower than it is for women who have had a birth in the past five years (40 percent compared with 58 percent), because women generally receive antenatal care in the later months of gestation rather than the earlier months. Therefore, it is difficult to obtain representative information on antenatal care providers. Additionally, the number of women is too few to present data on and preventive treatment or IPTp for currently pregnant women. For this reason, data on currently pregnant women are not included in the report.

Table 5.11 Prophylactic use of antimalarial drugs and use of Intermittent Preventive Treatment (IPTp) by women during pregnancy

Percentages of women age 15-49 with a live birth in the two years preceding the survey who, during the pregnancy, took any antimalarial drug for prevention, who took any and two or more doses of SP/Fansidar, and who received intermittent preventive treatment (IPTp), by background characteristics, Nigeria 2010

Background characteristic

Percentage who took any

antimalarial drug

SP/Fansidar Intermittent Preventive Treatment1

Percentage who

took any SP/Fansidar

Percentage who took 2+ doses of

SP/Fansidar

Percentage who received any

SP/Fansidar during an ANC visit

Percentage who took 2+ doses of SP/Fansidar and

received at least one during ANC visit

Number of women with a live birth in

the two years preceding the survey

Residence Urban 46.2 30.2 27.6 19.8 18.7 529 Rural 24.6 17.1 14.3 13.0 11.5 1,726

Zone North Central 28.9 12.2 10.4 7.1 7.1 352 North East 20.0 16.7 13.7 12.4 10.6 366 North West 22.0 20.0 16.2 15.9 13.5 692 South East 40.2 20.7 18.0 13.3 13.1 177 South South 43.7 28.5 25.0 22.2 20.4 313 South West 37.4 24.4 23.8 15.7 15.1 355

Areas for LLIN malaria

campaigns World Bank Booster2 28.2 24.0 20.8 19.7 17.1 513 Others with campaigns3 29.3 20.5 19.2 15.3 14.9 418 Others with no campaigns4 30.3 18.5 15.6 12.4 11.2 1,324

Education No education 15.6 10.6 8.5 8.2 7.1 1,130 Primary 33.9 23.6 20.3 15.6 13.8 429 Secondary 46.9 31.6 28.5 23.2 21.6 586 More than secondary 64.7 43.5 39.4 30.4 28.6 109

Wealth quintile Lowest 8.6 5.8 4.6 4.7 4.3 485 Second 18.5 12.5 9.7 9.1 7.3 483 Middle 30.3 20.1 17.5 15.4 14.4 479 Fourth 43.1 28.9 24.7 20.5 18.6 409 Highest 54.1 38.0 34.9 26.4 24.3 398

Total 29.6 20.2 17.4 14.6 13.2 2,255

1 IPTp: Intermittent preventive treatment during pregnancy is preventive treatment with a dose of sulfadoxine-pyrimethamine (SP/Fansidar) to pregnant women at each scheduled antenatal visit after the first trimester, but not more frequently than once a month. The percentages included in these columns may include SP/Fansidar from sources other than ANC, since women can get SP/Fansidar from a variety of sources. 2 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 3 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 4 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

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Anaemia and Malaria in Children | 59

ANAEMIA AND MALARIA IN CHILDREN 6

6.1 ANAEMIA AND MALARIA AMONG CHILDREN

Anaemia, defined as a low level of functional haemoglobin (Hb) in the blood, decreases the amount of oxygen reaching the tissues and organs of the body, thereby reducing their capacity to function. Because all human cells depend on oxygen for survival, anaemia in children can lead to severe health consequences, including impaired cognitive and motor development, stunted growth, and increased morbidity from infectious diseases. There are several types of anaemia, produced by a variety of underlying causes. Inadequate intake of iron, folate, vitamin B12, or other nutrients accounts for the majority of cases of anaemia in many populations. However, in malaria endemic areas, malaria accounts for a significant proportion of anaemia in children under age 5. Other causes of anaemia include thalassemia, sickle cell disease, and intestinal worms. As anaemia is a major cause of morbidity and mortality associated with malaria, prevention and treatment of malaria among children and pregnant women is essential. Promotion of the use of insecticide-treated mosquito bed nets and deworming medication every six months for children under age 5 are two important measures that can be taken to reduce the prevalence of anaemia among children.

All children age 6-59 months living in the households selected for the 2010 NMIS were eligible for haemoglobin and malaria testing. The HemoCue system was used to measure the concentration of haemoglobin in the blood. The Paracheck Pf® rapid diagnostic blood test for detection of histidine rich protein-2 (HRP2) (supplied by Orchid Biomedical Systems, India) was used to detect malaria. Thick blood smears and thin blood films were made in the field and transported to a laboratory, where microscopy was performed to determine the presence of malaria parasites and to identify the parasite species.

Table 6.1 shows the total number of children age 6-59 months eligible for testing and the percentages actually tested for anaemia and malaria. Of the 5,612 children age 6-59 months eligible for testing, 91 percent were tested for anaemia using the HemoCue portable machine, 91 percent were tested for malaria using the rapid diagnostic test, and 91 percent were tested for malaria using blood smears collected for malaria microscopy. The coverage levels were uniformly high across most of the population. Testing coverage was somewhat lower among younger children age 6-11 months (87 percent) and among children in North West and South West zones (86 to 88 percent).

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60 | Anaemia and Malaria in Children

Table 6.1 Coverage of testing for anaemia and malaria in children

Percentage of eligible children age 6-59 months who were tested for anaemia and for malaria (un-weighted), by background characteristics, Nigeria 2010

Background characteristic

Percentage tested for:

Anaemia Malaria with

RDT1 Malaria micros-

copy Number of

children

Age in months 6-11 87.1 87.4 87.4 635 6-8 85.6 85.9 85.6 354 9-11 89.0 89.3 89.7 281 12-17 91.9 92.5 92.2 689 18-23 92.2 92.6 92.8 474 24-35 91.5 91.8 91.4 1,201 36-47 91.1 91.5 91.1 1,252 48-59 90.5 91.0 91.0 1,361

Child’s sex Male 90.6 90.9 90.8 2,847 Female 91.0 91.5 91.2 2,765

Residence Urban 89.6 90.5 90.7 1,544 Rural 91.2 91.4 91.2 4,068

Zone North Central 96.6 96.3 96.1 916 North East 88.6 88.7 88.3 1,021 North West 85.6 88.0 88.1 1,426 South East 89.4 88.4 88.3 718 South South 98.0 98.0 97.3 980 South West 87.7 87.1 87.3 551

Areas for LLIN malaria campaigns World Bank Booster2 90.4 90.3 89.8 1,467 Others with campaigns3 87.6 91.4 91.0 1,009 Others with no campaigns4 92.0 91.5 91.6 3,136

Mother’s education5 No education 89.9 90.8 90.5 2,204 Primary 94.3 94.6 94.2 955 Secondary 92.9 92.8 92.9 1,328 More than secondary 89.1 89.1 89.1 230 Missing 86.4 86.8 86.6 895

Wealth quintile Lowest 89.9 90.0 89.7 1,041 Second 89.6 89.9 89.6 1,063 Middle 91.9 93.0 92.8 1,242 Fourth 92.2 92.7 92.5 1,221 Highest 90.0 89.8 90.0 1,045

Total 90.8 91.2 91.0 5,612

1 RDT = Rapid Diagnostic Test (Paracheck Pf®)2 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 3 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 4 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara. 5 For women who are not interviewed, information is taken from the Household Questionnaire. Excludes children whose mothers are not listed in the Household Questionnaire.

6.1.1 Anaemia Prevalence among Children

Table 6.2 shows the percentage of children age 6-59 months with haemoglobin (Hb) lower than 11.0 grams per decilitre (g/dl), by background characteristics. The World Health Organization (WHO) has recommended specific Hb levels below which a child is specified as having anaemia. Children 6-59 months old are considered anaemic if the Hb concentration levels are below 11.0 g/dl; those age 5-11

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Anaemia and Malaria in Children | 61

Table 6.2 Prevalence of anaemia in children

Percentage of children age 6-59 months classified as having anaemia, by background characteristics, Nigeria, 2010

Background characteristic

Anaemia status by haemoglobin level Any anaemia (below

11.0 g/dl) Number of

children Mild

(10.0-10.9 g/dl)Moderate

(8.0-9.9 g/dl) Severe

(below 8.0 g/dl)

Age in months 6-11 18.8 44.0 13.2 76.0 569 6-8 20.0 42.1 13.2 75.3 325 9-11 17.3 46.5 13.1 76.9 245 12-17 20.7 43.2 17.3 81.2 666 18-23 21.2 37.9 19.4 78.5 425 24-35 27.1 33.4 14.0 74.5 1,065 36-47 24.7 31.1 10.6 66.4 1,140 48-59 25.9 30.4 8.3 64.7 1,281

Sex Male 24.9 34.9 13.6 73.4 2,593 Female 23.2 35.0 11.6 69.8 2,552

Mother’s interview status Interviewed 23.8 35.4 12.5 71.7 4,348 Not interviewed1 25.5 32.5 13.2 71.2 798

Residence Urban 27.8 30.0 7.5 65.3 1,180 Rural 22.9 36.4 14.1 73.5 3,966

Zone North Central 28.4 20.6 7.0 56.0 857 North East 24.6 28.4 10.6 63.5 789 North West 19.6 41.2 17.5 78.3 1,553 South East 27.8 38.1 5.9 71.7 410 South South 24.5 41.9 15.5 81.9 820 South West 25.2 36.1 11.5 72.8 717

Areas for LLIN malaria campaigns World Bank Booster2 22.1 38.5 17.8 78.4 1,191 Others with campaigns3 20.8 35.3 12.4 68.6 929 Others with no campaigns4 25.8 33.4 10.6 69.9 3,026

Mother’s education5 No education 20.8 36.8 16.4 74.0 2,217 Primary 24.5 35.9 10.4 70.9 872 Secondary 27.7 33.3 7.5 68.5 1,077 More than secondary 33.0 28.3 5.1 66.4 182

Wealth quintile Lowest 21.1 34.9 15.6 71.6 1,084 Second 22.9 33.5 14.7 71.0 1,080 Middle 22.6 37.2 15.9 75.8 1,144 Fourth 26.7 37.1 9.5 73.3 980 Highest 28.2 31.4 5.3 64.8 857

Total 24.0 34.9 12.6 71.6 5,146

Note: Table is based on children who stayed in the household the night before the interview. Prevalence of anaemia is based on haemoglobin (Hb) levels and is adjusted for altitude using CDC formulas (CDC, 1998). Haemoglobin is meas-ured in grams per deciliter (g/dl). 1 Includes children whose mothers are deceased 2 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 3 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 4 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Eb-onyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara. 5 For women who are not interviewed, information is taken from the Household Questionnaire. Excludes children whose mothers are not interviewed.

years are considered anaemic if Hb is below 11.5 g/dl, and children age 12-14 years are considered anaemic if Hb is below 12.0 g/dl (WHO, 2004). The likely cause of childhood anaemia varies depending on the area of the world in which the child lives. Overall, iron deficiency is the most common cause of anaemia. However, in the developing countries, infectious diseases such as malaria, helminthes infections, HIV, and tuberculosis are also important (WHO, 2001; Coyer, 2005; Asobayire et al, 2001).

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62 | Anaemia and Malaria in Children

Table 6.2 shows the percentage of children age 6-59 months old classified as having mild, moderate, and severe anaemia, by background characteristics1. The results of the 2010 NMIS show that more than seven in ten (72 percent) Nigerian children age 6-59 months are anaemic (Hb concentration levels are below 11.0 g/dl). Twenty-four percent are mildly anaemic (Hb levels of 10.0-10.9 g/dl), 35 percent are moderately anaemic (Hb levels of 8.0-9.9 g/dl), and 13 percent are severely anaemic (Hb levels below 8.0 g/dl). Based on these findings, anaemia seems to be a significant public health problem in Nigeria.2

The prevalence of severe anaemia is highest among children age 12-23 months (17 to 19 percent), rural children (14 percent), children living in North West (18 percent), and children in the World Bank Booster LLIN campaign areas (18 percent). Prevalence of severe anaemia decreases with an increase in mother’s education, from 16 percent among children of uneducated mothers to 5 percent among children of mothers with more than secondary education. It is also reversely associated with wealth; it decreases from 16 percent among children in the poorest households to 5 percent of children in the richest households.

Prevalence of any anaemia is highest among children age 12-23 months (79 to 81 percent), male children (73 percent), and children living in rural areas (74 percent). The proportion of children with any anaemia ranges from 56 percent in North Central to 82 percent in South South. It is highest among children in the World Bank Booster LLIN campaign areas (78 percent) when compared with children in other areas. Prevalence of any anaemia decreases with an increase in mother’s education, from 74 percent among children of uneducated mothers to 66 percent among children of mothers with more than secondary education. It tends to decrease with wealth, although the pattern is not linear.

6.1.2 Malaria Prevalence among Children

Malaria prevalence among children age 6-59 months was measured in the 2010 NMIS in two ways. In the field, laboratory scientists used the Paracheck Pf® rapid diagnostic blood test (RDT) to determine whether children had malaria; blood was obtained from finger- or heel-prick samples. Children with positive RDT results were offered antimalarial treatment according to the Nigeria malaria treatment protocol. In addition, thin and thick smears from each child’s blood were made in the field, dried in a dust-free environment, stored in slide boxes, and transported within seven days to the NMIS Laboratory at the Department of Medical Microbiology and Parasitology, Lagos University Teaching Hospital, Lagos state, for confirmatory microscopy testing.

Table 6.3 shows the results of both malaria tests (RDT and microscopy) among children age 6-59 months by background characteristics. Data show that malaria prevalence is higher with RDTs than with microscopy. This is expected because false positive test results are possible with RDTs. Other studies have shown a higher prevalence of malaria using RDTs instead of microscopy (Wongsrichanalai et al, 2007).

1 Given that haemoglobin requirements differ substantially depending on altitude, anaemia data are normally adjusted for altitude using the formulas recommended by the U.S. Centers for Disease Control and Promotion (CDC, 1998). 2 Note that the cutoff value for malaria-related anaemia (8.0 g/dl) differs from the standard cutoff value for severe anaemia used in nutrition analysis (7.0 g/dl).

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Anaemia and Malaria in Children | 63

Table 6.3 Malaria prevalence in children

Percentage of children age 6-59 months classified in two tests as having malaria, by background charac-teristics, Nigeria 2010

Background characteristic

Malaria prevalence

RDT positive Number of

children testedMicroscopy

positive Number of

children tested

Age in months 6-11 41.5 583 29.3 583 6-8 42.3 331 28.3 330 9-11 40.4 252 30.5 253 12-17 46.6 673 35.9 672 18-23 47.8 431 37.6 432 24-35 50.7 1,080 41.2 1,077 36-47 54.1 1,156 46.3 1,155 48-59 58.2 1,293 49.0 1,293

Child’s sex Male 51.7 2,631 42.2 2,632 Female 51.3 2,585 41.8 2,579

Residence Urban 36.5 1,189 22.5 1,191 Rural 55.9 4,027 47.7 4,020

Zone North Central 45.1 856 49.4 856 North East 46.8 792 30.9 788 North West 56.0 1,627 48.2 1,630 South East 35.6 406 27.6 405 South South 53.8 820 32.2 816 South West 60.5 716 50.3 716

Areas for LLIN malaria campaigns World Bank Booster1 45.8 1,232 33.2 1,228 Others with campaigns2 53.7 960 48.6 957 Others with no campaigns3 53.1 3,024 43.4 3,027

Mother’s education4 No education 58.0 2,273 50.8 2,269 Primary 53.7 877 38.9 875 Secondary 36.8 1,081 28.7 1,084 More than secondary 32.9 182 13.1 182

Wealth quintile Lowest 57.0 1,104 49.7 1,100 Second 63.6 1,111 49.3 1,108 Middle 56.9 1,157 49.6 1,157 Fourth 44.0 987 36.4 986 Highest 30.1 857 18.7 860

Total 51.5 5,216 42.0 5,211

1 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 2 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 3 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara. 4 For women who are not interviewed, information is taken from the Household Questionnaire. Ex-cludes children whose mothers are not listed in the household.

Table 6.3 shows that 42 percent of children age 6-59 months tested positive for malaria when

microscopy was used for testing. Malaria prevalence increases with the age of the child regardless of the test used. Also, there is little difference in malaria prevalence by sex of the child. Prevalence of malaria is much higher in rural than in urban areas. For example, malaria prevalence using microscopy is more than twice as high in rural areas as in urban areas (48 percent versus 23 percent). Among zones, it ranges from 28 percent in South East to 50 percent in South West (Figure 6.1). Malaria prevalence decreases as the mother’s education level and wealth increase (Figure 6.2).

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64 | Anaemia and Malaria in Children

Figure 6.1 Malaria Prevalence among Children 6-59 Months by Residence and Zone (according to Microscopy)

Nigeria 2010

42

2348

4931

4828

3250

Total

ResidenceUrbanRural

ZoneNorth Central

North EastNorth West

South EastSouth SouthSouth West

0 10 20 30 40 50 60

Percent

Figure 6.2 Malaria Prevalence among Children 6-59 Months by Mother’s Education and Wealth Quintile (according to Microscopy)

Nigeria 2010

51

39

29

13

50 49 50

36

19

Noeducation

Primary Secondary More thansecondary

Lowest Second Middle Fourth Highest0

10

20

30

40

50

60Percent

Education Wealth quintile

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Anaemia and Malaria in Children | 65

6.1.3 Malaria Prevalence and Body Temperature among Children

Table 6.4 shows the percentage of children age 6-59 months with fever, by whether or not they have malaria as measured by RDTs and microscopy. The data show that only 11 percent of the children who tested positive for malaria using RDTs and 12 percent who tested positive using microscopy had fever at the time of the survey. These results indicate that for the majority of children, parasitaemia for malaria exists without the presence of fever. Results also show that four percent of children without malaria also have fever.

Table 6.4 Fever prevalence among children with and without malaria body temperature (axillary)

Percentage of children age 6-59 months with fever by whether or not they have malaria as measured by RDTs and microscopy, according to background characteristics, Nigeria 2010

Background characteristic

Based on RDT test results Based on microscopy test results

Children with malaria Children without malaria Children with malaria Children without malaria

Percentage with fever

Number of malaria-

positive chil-dren

Percentage with fever

Number of malaria-

negative chil-dren

Percentage with fever

Number of malaria-

positive chil-dren

Percentage with fever

Number of malaria-

negative chil-dren

Age in months 6-11 11.5 242 7.0 341 15.0 171 6.3 412 6-8 13.5 140 9.1 191 21.5 93 6.9 236 9-11 8.6 102 4.3 150 7.2 77 5.5 176 12-17 8.7 313 4.1 360 12.4 241 2.5 431 18-23 8.6 206 0.8 225 8.3 162 2.2 270 24-35 10.9 548 4.2 533 12.4 444 4.3 633 36-47 12.0 626 3.7 530 13.4 535 3.7 619 48-59 11.1 752 3.1 541 11.9 634 3.8 659

Child’s sex Male 10.9 1,359 3.8 1,272 12.0 1,110 4.1 1,522 Female 10.8 1,327 4.1 1,258 12.8 1,077 3.7 1,502

Residence Urban 4.9 434 2.9 755 6.6 268 2.7 924 Rural 12.0 2,253 4.4 1,774 13.2 1,919 4.4 2,101

Region North Central 13.4 386 2.7 470 10.3 423 4.6 433 North East 10.2 371 5.7 421 13.8 244 5.2 545 North West 17.7 911 7.1 716 20.5 785 6.0 845 South East 3.8 144 1.1 261 4.9 112 1.0 293 South South 4.1 441 1.0 379 4.3 263 2.0 553 South West 3.9 434 1.8 283 4.5 360 1.7 356

Areas for LLIN malaria

campaigns World bank boosters 16.5 564 7.7 668 21.9 407 6.7 820 Others with campaigns 5.4 516 1.8 445 5.4 465 2.0 491 Others with no campaigns 10.6 1,607 2.8 1,417 11.9 1,314 3.1 1,713

Mother’s education No education 13.5 1,319 6.6 954 14.9 1,152 6.1 1,117 Primary 6.8 471 2.8 406 7.1 340 3.6 535 Secondary 5.5 398 1.6 683 6.1 311 1.7 772 More than secondary 0.0 60 1.1 122 * 24 0.9 158

Wealth quintile Lowest 16.5 629 6.9 474 17.5 546 7.4 554 Second 11.7 707 6.2 404 14.6 547 4.9 562 Middle 8.9 658 3.3 499 8.8 574 4.2 583 Fourth 8.7 434 2.6 553 10.7 359 2.2 627 Highest 3.1 258 1.7 599 4.2 161 1.6 699

Total 10.8 2,687 3.9 2,530 12.4 2,187 3.9 3,024

RDT = rapid diagnostic test (malaria) Note: Fever was measured by field teams by taking children’s axillary body temperature; a temperature of 37.5o C or above was considered to constitute fever. An asterisk denotes a figure based on fewer than 25 unweighted cases that has been suppressed.

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66 | Anaemia and Malaria in Children

The presence of fever is higher among children 6-8 months old, regardless of whether or not they have malaria. Rural children with malaria are more than twice as likely to have fever as urban children with malaria; however, rural children without malaria are also more likely to have fever than their urban counterparts. The Southern zones have the lowest proportions of children with fever, both among those with and without malaria, while children in North West exhibit the highest percentage with fever; 21 percent of children in North West who had malaria according to microscopy also had fever. Furthermore, the percentage of children with fever is highest among children in the World Bank Booster LLIN campaign areas, among children of uneducated mothers, and among the poorest children, regardless of whether the children have malaria.

6.1.4 Malaria Species Identification

Another objective of the 2010 NMIS was to determine the type of Plasmodium parasite found in children with positive thick smears. Table 6.5 shows the prevalence of each Plasmodium species in children age 6-59 months and the percentage with mixed infections, by background characteristics. Overall, 95 percent of infected children had Plasmodium falciparum, 10 percent had P. malariae, and 6 percent had P. ovale. One in ten children (10 percent) carried mixed species infections, only. Each column under the ‘species of plasmodium’ heading represents cases in which each species was identified, whether alone or in combination with one or more other species. In other words, the column for P. falciparum includes cases in which only P. falciparum was identified and cases in which P. falciparum was identified along with other species such as P. malariae and P. ovale. The percentages of children infected with each plasmodium species in the absence of other species is: 84 percent with P. falciparum, 3 percent with P. malariae, and 2 percent with P. ovale (data not shown). P. vivax was not identified in any of the cases.

Table 6.5 Malaria species

Among children age 6-59 months with malaria parasites, the percentage with specific species of plasmodium and the per-centage with mixed infections, by background characteristics, Nigeria 2010

Background characteristic

Species of plasmodium Mixed infections4

Number of children with

malaria parasites

P. falciparum1 P. malariae2 P. ovale3

Age in months 6-11 96.5 7.9 4.0 8.5 171 6-8 97.5 10.3 4.2 12.0 93 9-11 95.3 5.1 3.8 4.2 77 12-17 96.0 11.0 6.6 13.6 241 18-23 94.3 9.0 6.0 9.3 162 24-35 95.2 7.7 4.7 7.6 444 36-47 94.7 10.1 5.9 10.6 535 48-59 93.7 11.4 6.5 11.7 634

Child’s sex Male 94.1 10.5 5.0 9.6 1,110 Female 95.4 9.2 6.6 11.2 1,077

Residence Urban 95.6 7.7 3.3 6.6 268 Rural 94.7 10.1 6.1 10.9 1,919

Zone North Central 95.1 9.5 12.9 17.5 423 North East 97.6 4.7 1.4 3.7 244 North West 94.3 7.4 4.4 6.1 785 South East 91.6 7.8 5.1 4.4 112 South South 90.9 13.0 6.4 10.3 263 South West 97.3 17.4 3.1 17.7 360

Areas for LLIN malaria campaigns World Bank Booster5 92.3 6.1 5.3 3.8 407 Others with campaigns6 95.0 8.7 7.7 11.4 465 Others with no campaigns7 95.4 11.4 5.2 12.1 1,314

Total 94.8 9.8 5.8 10.4 2,187

1 Includes cases with parasites identified as P. falciparum or P. falciparum combined with other species.2 Includes cases with parasites identified as P. malariae or P. malariae combined with other species. 3 Includes cases with parasites identified as P. ovale or P. ovale combined with other species. 4 Mixed infections include cases with two or more species identified. 5 World Bank Booster LLIN campaign states include Akwa Ibom, Anambra, Bauchi, Gombe, Jigawa, Kano, and Rivers. 6 States with other LLIN campaigns include Adamawa, Ekiti, Kaduna, Kebbi, Niger, Ogun, and Sokoto. 7 States without LLIN campaigns at the time of the NMIS include Abia, Bayelsa, Benue, Borno, Cross Rivers, Delta, Ebonyi, Edo, Enugu, FCT, Imo, Katsina, Kogi, Kwara, Lagos, Nasarawa, Ondo, Osun, Oyo, Plateau, Taraba, Yobe, and Zamfara.

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References | 67

REFERENCES

Alilio, M. S., I. C. Bygbjerg, and J. G. Breman. 2004. “Are Multilateral Malaria Research and Control Programs the Most Successful? Lessons from the Past 100 Years in Africa.” American Journal of Tropical Medicine and Hygiene 71 (no. 2 suppl.): 268-278.

Asobayire, F. S., P. Adou, L. Davidsson, J. D. Cook, and R. F. Hurrell. 2001. “Prevalence of Iron Deficiency with and without Concurrent Anemia in Population Groups with High Prevalences of Malaria and Other Infections: A Study in Cote d’Ivoire.” American Journal Clinical Nutrition 74: 776-82.

Centers for Disease Control and Prevention (CDC). 1998. “Recommendations to Prevent and Control Iron Deficiency in the United States.” Morbidity and Mortality Weekly Report 47 (RR-3):1-36.

Central Bank of Nigeria (CBN), 2008. CBN Annual Report & Financial Statements for the Year Ended 31st December, 2008. Abuja, Nigeria: CBN.

Coyer, S. M. 2005. “Anemia: Diagnosis and Management.” Journal of Pediatric Health Care 19 (6): 380-5. doi:10.1016/j.pedhc.2005.07.014.

Federal Ministry of Health (FMoH) [Nigeria], National Malaria and Vector Control Division. 2008. National Guidelines on Diagnosis and Treatment of Malaria. Abuja, Nigeria: FMoH.

Federal Ministry of Health (FMoH) [Nigeria], National Malaria Control Programme. 2008a. Strategic Plan 2009-2013: A Road Map for Malaria Control in Nigeria. Abuja, Nigeria: NMCP.

Federal Ministry of Health (FMoH) [Nigeria], National Malaria Control Programme. 2008b. Strategic Plan 2009-2013: National Guidelines for LLIN Campaign in Nigeria, 2008. Abuja, Nigeria: NMCP.

Gwatkin, D. R., S. Rutstein, K. Johnson, R.P. Pande, and A. Wagstaff. 2000. Socio-economic differences in health, nutrition and poverty. HNP/Poverty Thematic Group of the World Bank. Washington D.C.: The World Bank.

Jimoh, A., O. Sofola, A. Petu, and T. Okorosobo. 2007. “Quantifying the Economic Burden of Malaria in Nigeria Using the Willingness to Pay Approach.” Cost Effectiveness and Resource Allocation 2007, 5:6. doi:10.1186/1478-7547-5-6.

National Malaria Control Programme (NMCP) [Nigeria]. 2011. State Support Team Reports, February 2011. Abuja, Nigeria: NMCP.

National Malaria Control Programme (NMCP) [Nigeria] and Federal Ministry of Health (FMoH) [Nigeria]. 2009. National Strategic Plan for Malaria Control. Abuja, Nigeria: NMCP and FMoH.

National Population Commission (NPC) [Nigeria]. 2009. “Final results of 2006 Census.” Federal Republic of Nigeria Official Gazette, 2nd February, 2009. Abuja, Nigeria: NPC.

National Population Commission (NPC) [Nigeria] and ICF Macro. 2009. Nigeria Demographic and Health Survey 2008. Abuja, Nigeria: NPC and ICF Macro.

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68 | References

National Population Commission (NPC) [Nigeria] and ORC Macro. 2004. Nigeria Demographic and Health Survey 2003. Abuja, Nigeria: NPC and ORC Macro.

Oresanya, O. B, M. Hoshen, and O. Sofola. 2008. “Utilization of Insecticide-treated Nets by Under-five Children in Nigeria: Assessing Progress towards the Abuja Targets.” Malaria Journal 7 (1): 145. doi:10.1186/1475-2875-7-145.

Roll Back Malaria (RBM), World Health Organization (WHO). 2003. The Abuja Declaration and the Plan of Action: An Extract from the African Summit on Roll Back Malaria, Abuja, 25 April 2000 (WHO/CDS/RBM/2000.17). Geneva, Switzerland: RBM.

United Nations General Assembly. 2001. Road Map towards the Implementation of the United Nations Millennium Declaration: Report of the Secretary-General. New York: United Nations General Assembly.

Wongsrichanalai, C., M. J. Barcus, S. Muth, A. Sutamihardja, and W.H. Wernsdorfer. 2007. “A Review of Malaria Diagnostic Tools: Microscopy and Rapid Diagnostic Test (RDT).” American Journal of Tropical Medicine and Hygiene 77: 119-127.

World Health Organization (WHO). 2001. Iron Deficiency Anaemia. Assessment, Prevention and Control. Geneva, Switzerland: WHO.

World Health Organization (WHO). 2004. “Focusing on Anemia.” Joint statement by the World Health Organization and the United Nations Children’s Fund. Geneva, Switzerland: WHO.

World Health Organization (WHO) and United Nations Children’s Fund (UNICEF), Joint Monitoring Programme for Water Supply and Sanitation. 2004. Meeting on the MDG Drinking Water and Sanitation Target: A Mid-term Assessment of Programme. New York: WHO and UNICEF.

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Appendix A | 69

SAMPLE IMPLEMENTATION Appendix A

A.1 INTRODUCTION

The 2010 Nigeria Malaria Indicator Survey (NMIS) called for a nationally representative sample of about 6,000 households. The survey is designed to provide information on key malaria-related indicators including mosquito net ownership and use, coverage of preventive treatment for pregnant women, treatment of childhood fever, and the prevalence of anaemia and malaria among children age 6-59 months. The sample for the 2010 NMIS was designed to provide most of these indicators for the country as a whole, for urban and rural areas separately, and for each of the six zones formed by grouping the 36 states and the Federal Capital Territory (FCT). The zones are as follows:

1. North Central: Benue, FCT—Abuja, Kogi, Kwara, Nasarawa, Niger, and Plateau 2. North East: Adamawa, Bauchi, Borno, Gombe, Taraba, and Yobe 3. North West: Jigawa, Kaduna, Kano, Katsina, Kebbi, Sokoto, and Zamfara 4. South East: Abia, Anambra, Ebonyi, Enugu, and Imo 5. South South: Akwa Ibom, Bayelsa, Cross River, Delta, Edo, and Rivers 6. South West: Ekiti, Lagos, Ogun, Ondo, Osun, and Oyo

A.2 SAMPLING FRAME

The sampling frame used for the 2010 NMIS was the Population and Housing Census of the Federal Republic of Nigeria, which was conducted in 2006 by the National Population Commission (NPC). Administratively, Nigeria is divided into states. Each state is subdivided into local government areas (LGAs), and each LGA is divided into localities. In addition to these administrative units, during the 2006 Population Census, each locality was subdivided into convenient areas called census enumeration areas (EAs). The primary sampling unit (PSU), referred to as a cluster for the 2010 NMIS, is defined on the basis of EAs from the 2006 EA census frame.

Although the 2006 Population Census did not provide the number of households and population for each EA, population estimates were published for more than 800 LGA units. A combination of information from cartographic material demarcating each EA and the LGA population estimates from the census were used to identify the list of EAs, estimate the number of households, and distinguish EAs as urban or rual for the survey sample frame.

A.3 SAMPLE ALLOCATION

Table A.1 shows the sample distribution of clusters and households by zone and by urban-rural residence. The 2010 NMIS sample was selected using a stratified, two-stage cluster design consisting of 240 clusters, 83 in the urban areas and 157 in the rural areas. (The final sample included 239 clusters because access to one cluster was prevented by inter-communal disturbances.) A sample of 6,240 households was selected for the survey, with a minimum target of 920 completed individual women’s interviews per zone. Within each zone, the number of households was distributed proportionately among urban and rural areas. A fixed ‘take’ of 26 households per cluster was adopted for both urban and rural clusters.

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70 | Appendix A

Table A.1 Sample allocation of clusters and households

Sample allocation of clusters and households by zone, according to residence, Nigeria 2010

Zone

Allocation of clusters Allocation of households Urban Rural Total Urban Rural Total

North Central 13 27 40 338 702 1,040 North East 10 30 40 260 780 1,040 North West 8 32 40 208 832 1,040 South East 16 24 40 416 624 1,040 South South 11 29 40 286 754 1,040 South West 25 15 40 650 390 1,040

Nigeria 83 157 240 2,158 4,082 6,240

A.4 SAMPLING PROCEDURE AND UPDATING OF THE SAMPLING FRAME

The 2010 NMIS sample is a stratified sample selected in two stages. The primary sampling units (PSUs) are the enumeration areas (EAs) from the 2006 census, and the secondary sampling units (SSUs) are the households. In the first stage of selection, the 240 EAs were selected with a probability proportional to the size of the EA, where size is the number of approximate households calculated within the sampling frame.

A complete listing of households and a mapping exercise for each cluster was carried out from August through September 2010. The lists of households resulting from this exercise served as the sampling frame for the selection of households in the second stage. In addition to listing the households, the NPC listing enumerators used global positioning system (GPS) receivers to record the coordinates of the 2010 NMIS sample clusters.

In the second stage of the selection process, 26 households were selected in each cluster by equal probability systematic sampling. All women age 15-49 who were either permanent residents of the households in the 2010 NMIS sample or visitors present in the households on the night before the survey were eligible to be interviewed. In addition, all children age 6-59 months were eligible to be tested for malaria and anaemia.

A.5 WEIGHTING AND REPRESENTATIVENESS

Proper weighting of the survey data is important to guarantee the representativeness of the survey data and to adjust for differential nonresponse. The 2010 NMIS is a complex survey including multi-stage selection, clustering, stratification, and unequal probability sampling. Due to the non-proportional allocation of the samples to the different strata, conditions for a self-weighting sample were not met. Therefore, weights are required to ensure the representativeness of the sample results.

Several sets of weights were calculated for the NMIS. First, a set of household weights was calculated for the selected households. The basic sampling weight for each household is the inverse of its selection probability.This weight was further adjusted for nonresponse at the household level. The adjustment of the weight is performed to adjust for nonresponse of households that are found. Out of scope households (i.e., households absent for extended periods and households no longer extant because the dwelling is either vacant or destroyed) are not included in the calculation. Table A.2 presents the results of the household and women’s interviews by residence and zone, together with the overall response rates.

The above adjusted weight was further normalized (called standard weight) at the national level to make the number of weighted cases equal to the number of unweighted cases for all household

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Appendix A | 71

indicators based on the whole national sample. This treatment has no effect on the indicators themselves, but it does affect the number of weighted cases to reflect the relative scale of the base population it represents. The normalization was done by multiplying the whole set of weights by a unique constant, which was the number of unweighted total number of households interviewed over the weighted total number of households interviewed. All household indicators are tabulated applying this set of weights.

Second, a set of women individual standard weights was calculated based on the household standard weight calculated above, correcting for women’s nonresponse and normalizing the resulting weights. Women should share the same weight as that of the household to which they belong, because all women age 15-49 were interviewed in every selected household. Furthermore, the household standard weight must be corrected for women’s nonresponse, because there are nonresponses at the individual level – that is, not all of the eligible women in the selected household answered the questionnaire.

The reason for normalization of the individual weight is the same as for normalization of the household weight. The household and women’s weights are PSU weights. All of the households in the same cluster share the same household weights; all women in the same PSU share the same weight.

A.6 SAMPLE IMPLEMENTATION

Table A.2 presents response rates for the zones and the urban and rural areas for the household and women’s survey.

Table A.2 Sample implementation

Percent distribution of households and eligible women by results of the household and individual interviews, and household, eligible women and overall women response rates, according to urban-rural residence and region (unweighted), Nigeria MIS 2010

Result

Residence Region

Total Urban Rural North

Central North East North West South East South South South West

Selected households Completed (C) 92.8 96.3 96.0 93.1 97.2 96.0 97.1 91.3 95.1

Household present but no competent respondent at home (HP) 0.7 0.3 0.0 0.5 0.1 0.9 0.3 0.8 0.4

Postponed (P) 0.1 0.0 0.0 0.0 0.1 0.1 0.0 0.0 0.0 Refused (R) 1.1 0.7 0.8 1.5 1.2 0.5 0.5 0.6 0.8 Dwelling not found (DNF) 0.4 0.1 0.5 0.1 0.0 0.0 0.0 0.5 0.2 Household absent (HA) 4.2 2.1 2.2 4.8 0.7 2.6 1.5 5.3 2.8 Dwelling vacant/address not a dwelling (DV) 0.6 0.4 0.3 0.0 0.6 0.0 0.5 1.4 0.5 Dwelling destroy (DD) 0.1 0.1 0.2 0.0 0.2 0.0 0.1 0.0 0.1 Other (O) 0.0 0.0 0.1 0.0 0.0 0.0 0.0 0.1 0.0

Total 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 Number of sampled households 2,095 4,102 1,039 1,041 1,038 1,039 1,037 1,003 6,197 Household response rate (HRR) 97.6 98.9 98.7 97.8 98.6 98.5 99.2 98.0 98.5

Eligible women Completed (EWC) 97.4 97.1 98.9 96.0 95.9 96.5 98.6 97.4 97.2 Not at home (EWNH) 0.9 1.7 0.5 2.7 1.7 2.0 0.5 0.9 1.4 Postponed (EWP) 0.0 0.0 0.0 0.2 0.1 0.0 0.0 0.0 0.0 Refused (EWR) 0.4 0.2 0.1 0.4 0.4 0.5 0.3 0.0 0.3 Partly completed (EWPC) 0.1 0.1 0.1 0.0 0.1 0.2 0.1 0.1 0.1 Incapacitated (EWI) 0.3 0.1 0.1 0.2 0.1 0.3 0.1 0.5 0.2 Other (EWO) 0.7 0.8 0.3 0.5 1.8 0.6 0.4 1.0 0.8

Total 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 Number of women 2,143 4,384 1,091 1,132 1,256 1,048 1,140 860 6,527 Eligible women response rate (EWRR) 97.4 97.1 98.9 96.0 95.9 96.5 98.6 97.4 97.2

Overall women response rate (ORR)3 95.1 96.0 97.6 93.9 94.6 95.0 97.8 95.5 95.7

1 Using the number of households falling into specific response categories, the household response rate (HRR) is calculated as:

DNFRPHPCC100

++++∗

2 The eligible women response rate (EWRR) is equivalent to the percentage of interviews completed (EWC) 3 The overall women response rate (OWRR) is calculated as: OWRR = HRR * EWRR/100

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Appendix B | 73

ESTIMATES OF SAMPLING ERRORS Appendix B

The estimates from a sample survey are affected by two types of errors: (1) nonsampling errors, and (2) sampling errors. Nonsampling errors are the results of mistakes made in implementing data collection and data processing, such as failure to locate and interview the correct household, misunderstanding of the questions on the part of either the interviewer or the respondent, and data entry errors. Although numerous efforts were made during the implementation of the 2010 Nigeria Malaria Survey (NMIS) to minimise this type of error, nonsampling errors are impossible to avoid and difficult to evaluate statistically.

Sampling errors, on the other hand, can be evaluated statistically. The sample of respondents selected in the 2010 NMIS is only one of many samples that could have been selected from the same population, using the same design and expected size. Each of these samples would yield results that differ somewhat from the results of the actual sample selected. Sampling errors are a measure of the variability between all possible samples. Although the degree of variability is not known exactly, it can be estimated from the survey results.

A sampling error is usually measured in terms of the standard error for a particular statistic (mean, percentage, etc.), which is the square root of the variance. The standard error can be used to calculate confidence intervals within which the true value for the population can reasonably be assumed to fall. For example, for any given statistic calculated from a sample survey, the value of that statistic will fall within a range of plus or minus two times the standard error of that statistic in 95 percent of all possible samples of identical size and design.

If the sample of respondents had been selected as a simple random sample, it would have been possible to use straightforward formulas for calculating sampling errors. However, the 2010 NMIS sample is the result of a multi-stage stratified design, and, consequently, it was necessary to use more complex formulae. The computer software used to calculate sampling errors for the 2010 NMIS is the ISSA Sampling Error Module. This module used the Taylor linearisation method of variance estimation for survey estimates that are means or proportions. The Jackknife repeated replication method is used for variance estimation of more complex statistics such as fertility and mortality rates.

The Taylor linearisation method treats any percentage or average as a ratio estimate, r = y/x, where y represents the total sample value for variable y, and x represents the total number of cases in the group or subgroup under consideration. The variance of r is computed using the formula given below, with the standard error being the square root of the variance:

= =−

−==

H

h h

hm

ihi

h

h

mz

zmm

xfrvarrSE

h

1

2

1

2

12

2 1)()(

in which

hihihi rxyz −= , and hhh rxyz −=

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74 | Appendix B

where h represents the stratum which varies from 1 to H, mh is the total number of clusters selected in the hth stratum, yhi is the sum of the weighted values of variable y in the ith cluster in the hth stratum, xhi is the sum of the weighted number of cases in the ith cluster in the hth stratum, and f is the overall sampling fraction, which is so small that it is ignored.

In addition to the standard error, ISSA computes the design effect (DEFT) for each estimate, which is defined as the ratio between the standard error using the given sample design and the standard error that would result if a simple random sample had been used. A DEFT value of 1.0 indicates that the sample design is as efficient as a simple random sample, while a value greater than 1.0 indicates the increase in the sampling error due to the use of a more complex and less statistically efficient design. ISSA also computes the relative error and confidence limits for the estimates.

Sampling errors for the 2010 NMIS are calculated for selected variables considered to be of primary interest for the woman’s survey. The results are presented in this appendix for the country as a whole, for urban and rural areas, and for each of the 6 zones. For each variable, the type of statistic (mean, proportion, or rate) and the base population are given in Table B.1. Tables B.2 to B.10 present the value of the statistic (R), its standard error (SE), the number of unweighted (N-UNWE) and weighted (N-WEIG) cases, the design effect (DEFT), the relative standard error (SE/R), and the 95 percent confidence limits (R±2SE), for each variable. The DEFT is considered undefined when the standard error considering simple random sample is zero (when the estimate is close to 0 or 1).

The confidence interval (e.g., as calculated for the proportion of all women 15-49 with secondary education or higher) can be interpreted as follows: the overall proportion from the national sample is 0.405 and its standard error is 0.019. Therefore, to obtain the 95 percent confidence limits, one adds and subtracts twice the standard error to the sample estimate, i.e., 0.405 ± 2 × 0.019. There is a high probability (95 percent) that the true proportion of women with secondary education or higher for all women aged 15 to 49 is between 0.366 and 0.443

Sampling errors are analysed for the national woman sample and a group of estimated proportions. The relative standard errors (SE/R) for the selected proportions range between almost 2 percent and 10 percent. But in general, the relative standard error for most estimates for the country as a whole is small.

There are differentials in the relative standard error for the estimates of sub-populations. For example, for the variable secondary education or higher for women aged 40-49, the relative standard errors, as a percent of the estimated mean for the whole country, for the urban areas, and for the rural areas are 4.8 percent, 4.6 percent, and 7.0 percent, respectively.

For the total sample, the value of the design effect (DEFT), averaged over all selected variables, is 2.9326, which means that due to multi-stage clustering of the sample, the average standard error is increased by a factor of 2.9326 over that in an equivalent simple random sample.

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Appendix B | 75

Table B.1 List of selected variables for sampling errors, Nigeria MIS 2010

Variable Type of Estimate Base Population

No education Proportion All women 15-49 Secondary education or higher Proportion All women 15-49 Antenatal care from a skilled provider Proportion Last birth for all women 15-49 in last 5 years Owns at least 1 insecticide-treated net (ITN) Proportion Households Owns at least 1 long-lasting insecticide net (LLIN) Proportion Households Children under 5 who slept under an ITN last night Proportion Children under five in households Children under 5 who slept under a LLIN last night Proportion Children under five in households Woman who slept under an ITN last night Proportion All women 15-49 in households Woman who slept under a LLIN last night Proportion All women 15-49 in households

Received 2+ doses of SP/Fansidar with at least 1 dose

during ANC visit Proportion Last birth for all women 15-49 in last 2 years Child had fever in last 2 weeks Proportion Children under 5 in women’s birth history Children under 5 with fever who took ACT Proportion Children under 5 with fever in last 2 weeks Children 6-59 months who have malaria (RDT) Proportion Children 6-59 months tested for malaria using rapid test Children 6-59 months who have malaria (microscopy) Proportion Children 6-59 months tested for malaria using microscopy Children 6-59 months who have anaemia Proportion Children 6-59 months tested for anaemia

Table B.2 Sampling errors for National sample, Nigeria MIS 2010

Variable R SE N-UNWE N-WEIG DEFT SE/R R-2SE R+2SE

No education 0.425 0.023 6,344 6,344 3.664 0.053 0.380 0.471Secondary education or higher 0.405 0.019 6,344 6,344 3.146 0.048 0.366 0.443Antenatal care from a skilled provider 0.575 0.023 3,602 3,703 2.794 0.040 0.529 0.621Owns at least 1 insecticide-treated net (ITN) 0.415 0.022 5,895 5,895 3.478 0.054 0.371 0.460Owns at least 1 long-lasting insecticide net (LLIN) 0.413 0.022 5,895 5,895 3.476 0.054 0.368 0.457Children under 5 who slept under an ITN last night 0.283 0.018 6,527 6,517 3.240 0.064 0.247 0.320Children under 5 who slept under a LLIN last night 0.282 0.018 6,527 6,517 3.239 0.064 0.246 0.318Woman who slept under an ITN last night 0.290 0.020 6,074 6,207 3.490 0.070 0.249 0.331Woman who slept under a LLIN last night 0.288 0.020 6,074 6,207 3.485 0.070 0.247 0.328Received 2+ doses of SP/Fansidar with at least 1 dose

during ANC visit 0.132 0.012 2,170 2,255 1.696 0.093 0.107 0.157Child had fever in last 2 weeks 0.354 0.016 5,379 5,519 2.451 0.045 0.322 0.386Children under 5 with fever who took ACT 0.059 0.008 1,814 1,956 1.404 0.132 0.043 0.075Children 6-59 months who have malaria (RDT) 0.515 0.022 5,118 5,216 3.146 0.043 0.471 0.559Children 6-59 months who have malaria (microscopy) 0.420 0.021 5,108 5,211 3.044 0.050 0.378 0.462Children 6-59 months who have anaemia 0.716 0.014 5,045 5,146 2.236 0.020 0.688 0.744

Table B.3 Sampling errors for Urban sample, Nigeria MIS 2010

Variable R SE N-UNWE N-WEIG DEFT SE/R R-2SE R+2SE

No education 0.184 0.030 2,088 1,803 3.560 0.164 0.124 0.245Secondary education or higher 0.664 0.031 2,088 1,803 2.979 0.046 0.602 0.725Antenatal care from a skilled provider 0.758 0.036 1,007 873 2.640 0.047 0.687 0.829Owns at least 1 insecticide-treated net (ITN) 0.331 0.033 1,944 1,720 3.082 0.100 0.265 0.396Owns at least 1 long-lasting insecticide net (LLIN) 0.329 0.033 1,944 1,720 3.071 0.100 0.263 0.394Children under 5 who slept under an ITN last night 0.185 0.023 2,143 1,852 2.762 0.125 0.139 0.231Children under 5 who slept under a LLIN last night 0.184 0.023 2,143 1,852 2.763 0.126 0.138 0.231Woman who slept under an ITN last night 0.222 0.026 1,674 1,413 2.600 0.119 0.169 0.274Woman who slept under a LLIN last night 0.219 0.026 1,674 1,413 2.594 0.120 0.167 0.272Received 2+ doses of SP/Fansidar with at least 1 dose

during ANC visit 0.187 0.027 606 529 1.724 0.146 0.132 0.241Child had fever in last 2 weeks 0.308 0.027 1,504 1,285 2.271 0.088 0.254 0.362Children under 5 with fever who took ACT 0.125 0.025 449 396 1.608 0.201 0.075 0.175Children 6-59 months who have malaria (RDT) 0.365 0.049 1,398 1,189 3.840 0.136 0.266 0.464Children 6-59 months who have malaria (microscopy) 0.225 0.027 1,400 1,191 2.452 0.122 0.170 0.279Children 6-59 months who have anaemia 0.653 0.026 1,379 1,180 2.022 0.040 0.601 0.705

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Table B.4 Sampling errors for Rural sample, Nigeria MIS 2010

Variable R SE N-UNWE N-WEIG DEFT SE/R R-2SE R+2SE

No education 0.521 0.027 4,256 4,541 3.481 0.051 0.468 0.574Secondary education or higher 0.302 0.021 4,256 4,541 2.982 0.070 0.260 0.344Antenatal care from a skilled provider 0.518 0.028 2,595 2,830 2.808 0.053 0.463 0.573Owns at least 1 insecticide-treated net (ITN) 0.450 0.028 3,951 4,175 3.572 0.063 0.394 0.507Owns at least 1 long-lasting insecticide net (LLIN) 0.448 0.028 3,951 4,175 3.573 0.063 0.391 0.504Children under 5 who slept under an ITN last night 0.322 0.023 4,384 4,665 3.300 0.072 0.276 0.369Children under 5 who slept under a LLIN last night 0.320 0.023 4,384 4,665 3.299 0.073 0.274 0.367Woman who slept under an ITN last night 0.310 0.025 4,400 4,794 3.656 0.082 0.259 0.361Woman who slept under a LLIN last night 0.308 0.025 4,400 4,794 3.651 0.083 0.257 0.359Received 2+ doses of SP/Fansidar with at least 1 dose

during ANC visit 0.115 0.014 1,564 1,726 1.683 0.118 0.088 0.142Child had fever in last 2 weeks 0.368 0.019 3,875 4,234 2.469 0.052 0.330 0.407Children under 5 with fever who took ACT 0.042 0.007 1,365 1,560 1.318 0.170 0.028 0.057Children 6-59 months who have malaria (RDT) 0.559 0.024 3,720 4,027 2.923 0.043 0.512 0.607Children 6-59 months who have malaria (microscopy) 0.477 0.024 3,708 4,020 2.970 0.051 0.429 0.526Children 6-59 months who have anaemia 0.735 0.017 3,666 3,966 2.288 0.023 0.701 0.768

Table B.5 Sampling errors for North Central sample, Nigeria MIS 2010

Variable R SE N-UNWE N-WEIG DEFT SE/R R-2SE R+2SE

No education 0.389 0.062 1,079 1,039 4.176 0.160 0.265 0.513Secondary education or higher 0.381 0.047 1,079 1,039 3.198 0.124 0.286 0.475Antenatal care from a skilled provider 0.663 0.045 616 591 2.387 0.069 0.572 0.754Owns at least 1 insecticide-treated net (ITN) 0.321 0.054 997 951 3.630 0.167 0.213 0.428Owns at least 1 long-lasting insecticide net (LLIN) 0.321 0.054 997 951 3.630 0.167 0.213 0.428Children under 5 who slept under an ITN last night 0.195 0.047 1,091 1,063 3.938 0.242 0.101 0.290Children under 5 who slept under a LLIN last night 0.195 0.047 1,091 1,063 3.938 0.242 0.101 0.290Woman who slept under an ITN last night 0.190 0.047 991 966 3.750 0.246 0.097 0.284Woman who slept under a LLIN last night 0.190 0.047 991 966 3.750 0.246 0.097 0.284Received 2+ doses of SP/Fansidar with at least 1 dose

during ANC visit 0.071 0.020 355 352 1.452 0.280 0.031 0.110Child had fever in last 2 weeks 0.176 0.022 883 850 1.709 0.125 0.132 0.220Children under 5 with fever who took ACT 0.002 0.002 163 149 0.523 1.015 0.000 0.005Children 6-59 months who have malaria (RDT) 0.451 0.034 882 856 2.020 0.075 0.383 0.519Children 6-59 months who have malaria (microscopy) 0.494 0.046 880 856 2.714 0.093 0.403 0.586Children 6-59 months who have anaemia 0.560 0.051 882 857 3.030 0.091 0.458 0.661

Table B.6 Sampling errors for North East sample, Nigeria MIS 2010

Variable R SE N-UNWE N-WEIG DEFT SE/R R-2SE R+2SE

No education 0.747 0.053 1,087 951 3.983 0.070 0.642 0.852Secondary education or higher 0.172 0.042 1,087 951 3.638 0.242 0.088 0.255Antenatal care from a skilled provider 0.311 0.051 685 607 2.882 0.164 0.209 0.413Owns at least 1 insecticide-treated net (ITN) 0.629 0.050 969 858 3.189 0.079 0.530 0.728Owns at least 1 long-lasting insecticide net (LLIN) 0.618 0.050 969 858 3.203 0.081 0.518 0.718Children under 5 who slept under an ITN last night 0.515 0.053 1,132 976 3.563 0.103 0.409 0.620Children under 5 who slept under a LLIN last night 0.507 0.053 1,132 976 3.557 0.104 0.401 0.613Woman who slept under an ITN last night 0.515 0.045 1,113 960 2.998 0.087 0.425 0.605Woman who slept under a LLIN last night 0.505 0.045 1,113 960 3.027 0.090 0.414 0.596Received 2+ doses of SP/Fansidar with at least 1 dose

during ANC visit 0.106 0.022 411 366 1.459 0.210 0.061 0.150Child had fever in last 2 weeks 0.332 0.032 999 880 2.175 0.098 0.267 0.396Children under 5 with fever who took ACT 0.041 0.018 297 292 1.570 0.442 0.005 0.077Children 6-59 months who have malaria (RDT) 0.468 0.061 906 792 3.648 0.129 0.347 0.589Children 6-59 months who have malaria (microscopy) 0.309 0.039 902 788 2.555 0.127 0.230 0.388Children 6-59 months who have anaemia 0.635 0.025 903 789 1.549 0.039 0.586 0.685

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Appendix B | 77

Table B.7 Sampling errors for North West sample, Nigeria MIS 2010

Variable R SE N-UNWE N-WEIG DEFT SE/R R-2SE R+2SE

No education 0.799 0.039 1,205 1,584 3.400 0.049 0.720 0.877Secondary education or higher 0.122 0.033 1,205 1,584 3.552 0.275 0.055 0.189Antenatal care from a skilled provider 0.380 0.048 866 1,144 2.924 0.127 0.284 0.477Owns at least 1 insecticide-treated net (ITN) 0.582 0.055 1,009 1,296 3.522 0.094 0.473 0.692Owns at least 1 long-lasting insecticide net (LLIN) 0.582 0.055 1,009 1,296 3.522 0.094 0.473 0.692Children under 5 who slept under an ITN last night 0.415 0.049 1,256 1,628 3.547 0.119 0.316 0.513Children under 5 who slept under a LLIN last night 0.415 0.049 1,256 1,628 3.547 0.119 0.316 0.513Woman who slept under an ITN last night 0.366 0.053 1,525 2,006 4.271 0.144 0.260 0.471Woman who slept under a LLIN last night 0.366 0.053 1,525 2,006 4.271 0.144 0.260 0.471Received 2+ doses of SP/Fansidar with at least 1 dose

during ANC visit 0.135 0.027 511 692 1.767 0.198 0.082 0.189Child had fever in last 2 weeks 0.493 0.034 1,341 1,777 2.513 0.070 0.424 0.561Children under 5 with fever who took ACT 0.048 0.011 647 875 1.299 0.229 0.026 0.069Children 6-59 months who have malaria (RDT) 0.560 0.043 1,255 1,627 3.071 0.077 0.474 0.646Children 6-59 months who have malaria (microscopy) 0.482 0.045 1,257 1,630 3.220 0.094 0.391 0.573Children 6-59 months who have anaemia 0.783 0.027 1,178 1,553 2.236 0.034 0.729 0.837

Table B.8 Sampling errors for South East sample, Nigeria MIS 2010

Variable R SE N-UNWE N-WEIG DEFT SE/R R-2SE R+2SE

No education 0.032 0.008 1,011 681 1.428 0.249 0.016 0.047Secondary education or higher 0.749 0.029 1,011 681 2.143 0.039 0.691 0.808Antenatal care from a skilled provider 0.928 0.015 421 274 1.201 0.016 0.898 0.959Owns at least 1 insecticide-treated net (ITN) 0.322 0.046 997 678 3.127 0.144 0.230 0.415Owns at least 1 long-lasting insecticide net (LLIN) 0.321 0.046 997 678 3.106 0.143 0.229 0.413Children under 5 who slept under an ITN last night 0.142 0.026 1,048 700 2.437 0.185 0.089 0.194Children under 5 who slept under a LLIN last night 0.140 0.026 1,048 700 2.438 0.187 0.088 0.193Woman who slept under an ITN last night 0.169 0.029 779 502 2.185 0.174 0.110 0.227Woman who slept under a LLIN last night 0.162 0.028 779 502 2.128 0.173 0.106 0.219Received 2+ doses of SP/Fansidar with at least 1 dose

during ANC visit 0.131 0.031 271 177 1.534 0.241 0.068 0.194Child had fever in last 2 weeks 0.365 0.029 685 446 1.572 0.079 0.307 0.423Children under 5 with fever who took ACT 0.071 0.019 249 163 1.182 0.272 0.032 0.109Children 6-59 months who have malaria (RDT) 0.356 0.030 635 406 1.591 0.085 0.295 0.416Children 6-59 months who have malaria (microscopy) 0.276 0.027 634 405 1.528 0.098 0.222 0.331Children 6-59 months who have anaemia 0.717 0.018 640 410 1.026 0.026 0.680 0.753

Table B.9 Sampling errors for South South sample, Nigeria MIS 2010

Variable R SE N-UNWE N-WEIG DEFT SE/R R-2SE R+2SE

No education 0.073 0.016 1,124 959 2.049 0.218 0.041 0.105Secondary education or higher 0.654 0.030 1,124 959 2.117 0.046 0.593 0.714Antenatal care from a skilled provider 0.736 0.043 629 530 2.458 0.059 0.649 0.822Owns at least 1 insecticide-treated net (ITN) 0.438 0.044 1,007 859 2.819 0.101 0.350 0.526Owns at least 1 long-lasting insecticide net (LLIN) 0.435 0.044 1,007 859 2.815 0.101 0.347 0.523Children under 5 who slept under an ITN last night 0.246 0.034 1,140 983 2.645 0.137 0.179 0.314Children under 5 who slept under a LLIN last night 0.244 0.034 1,140 983 2.651 0.138 0.177 0.312Woman who slept under an ITN last night 0.259 0.030 1,052 895 2.209 0.115 0.200 0.319Woman who slept under a LLIN last night 0.258 0.030 1,052 895 2.212 0.116 0.198 0.318Received 2+ doses of SP/Fansidar with at least 1 dose

during ANC visit 0.204 0.034 379 313 1.663 0.169 0.135 0.273Child had fever in last 2 weeks 0.385 0.027 909 759 1.689 0.071 0.330 0.439Children under 5 with fever who took ACT 0.115 0.026 342 292 1.518 0.228 0.063 0.168Children 6-59 months who have malaria (RDT) 0.538 0.049 960 820 3.054 0.091 0.440 0.636Children 6-59 months who have malaria (microscopy) 0.322 0.036 954 816 2.355 0.111 0.251 0.394Children 6-59 months who have anaemia 0.819 0.019 960 820 1.498 0.023 0.782 0.857

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Table B.10 Sampling errors for South West sample, Nigeria MIS 2010

Variable R SE N-UNWE N-WEIG DEFT SE/R R-2SE R+2SE

No education 0.202 0.089 838 1,130 6.428 0.441 0.024 0.381Secondary education or higher 0.600 0.080 838 1,130 4.750 0.134 0.439 0.761Antenatal care from a skilled provider 0.840 0.040 385 557 2.126 0.047 0.760 0.920Owns at least 1 insecticide-treated net (ITN) 0.203 0.055 916 1,253 4.168 0.273 0.092 0.314Owns at least 1 long-lasting insecticide net (LLIN) 0.202 0.055 916 1,253 4.179 0.275 0.091 0.312Children under 5 who slept under an ITN last night 0.103 0.042 860 1,167 4.030 0.406 0.019 0.186Children under 5 who slept under a LLIN last night 0.103 0.042 860 1,167 4.030 0.406 0.019 0.186Woman who slept under an ITN last night 0.081 0.030 614 879 2.695 0.366 0.022 0.141Woman who slept under a LLIN last night 0.081 0.030 614 879 2.695 0.366 0.022 0.141Received 2+ doses of SP/Fansidar with at least 1 dose

during ANC visit 0.151 0.034 243 355 1.468 0.224 0.083 0.218Child had fever in last 2 weeks 0.229 0.027 562 807 1.537 0.119 0.174 0.283Children under 5 with fever who took ACT 0.089 0.035 116 185 1.312 0.392 0.019 0.159Children 6-59 months who have malaria (RDT) 0.605 0.066 480 716 2.948 0.109 0.474 0.737Children 6-59 months who have malaria (microscopy) 0.503 0.054 481 716 2.359 0.107 0.395 0.610Children 6-59 months who have anaemia 0.728 0.028 482 717 1.367 0.038 0.673 0.784

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Appendix C | 79

DATA QUALITY TABLES Appendix C

Table C.1 Household age distribution

Single-year age distribution of the de facto household population by sex (weighted), Nigeria MIS 2010

Age

Women Men Age

Women Men Number Percent Number Percent Number Percent Number Percent

0 583 3.8 592 3.9 38 134 0.9 150 1.0 1 569 3.7 587 3.9 39 84 0.6 79 0.5 2 547 3.6 639 4.2 40 294 1.9 320 2.1 3 641 4.2 621 4.1 41 84 0.6 70 0.5 4 732 4.8 696 4.6 42 104 0.7 115 0.8 5 403 2.6 447 2.9 43 76 0.5 78 0.5 6 556 3.6 582 3.8 44 40 0.3 25 0.2 7 474 3.1 529 3.5 45 202 1.3 236 1.6 8 489 3.2 520 3.4 46 75 0.5 81 0.5 9 329 2.2 362 2.4 47 64 0.4 74 0.5 10 473 3.1 533 3.5 48 86 0.6 89 0.6 11 246 1.6 272 1.8 49 42 0.3 59 0.4 12 459 3.0 426 2.8 50 238 1.6 265 1.8 13 289 1.9 321 2.1 51 63 0.4 33 0.2 14 337 2.2 282 1.9 52 110 0.7 76 0.5 15 247 1.6 409 2.7 53 70 0.5 63 0.4 16 220 1.4 257 1.7 54 57 0.4 42 0.3 17 215 1.4 201 1.3 55 139 0.9 133 0.9 18 279 1.8 332 2.2 56 43 0.3 56 0.4 19 174 1.1 170 1.1 57 34 0.2 53 0.4 20 441 2.9 337 2.2 58 43 0.3 47 0.3 21 190 1.2 131 0.9 59 15 0.1 24 0.2 22 229 1.5 209 1.4 60 196 1.3 217 1.4 23 188 1.2 132 0.9 61 16 0.1 23 0.2 24 177 1.2 104 0.7 62 53 0.3 41 0.3 25 456 3.0 325 2.1 63 27 0.2 30 0.2 26 185 1.2 129 0.9 64 11 0.1 22 0.1 27 216 1.4 147 1.0 65 90 0.6 123 0.8 28 286 1.9 198 1.3 66 15 0.1 23 0.2 29 152 1.0 93 0.6 67 8 0.0 24 0.2 30 449 2.9 374 2.5 68 41 0.3 33 0.2 31 103 0.7 103 0.7 69 5 0.0 12 0.1 32 200 1.3 191 1.3 70+ 310 2.0 484 3.2 33 124 0.8 89 0.6 Don’t know/ 34 110 0.7 74 0.5 missing 8 0.1 13 0.1 35 351 2.3 325 2.1 36 111 0.7 92 0.6 Total 15,236 100.0 15,150 100.0 37 130 0.9 102 0.7

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Table C.2 Age distribution of eligible and interviewed women

De facto household population of women age 10-54, interviewed women age 15-49, and percentage of eligible women who were interviewed (weighted), by five-year age groups, Nigeria MIS 2010

Age group

Household population of women age

10-54 Interviewed women age 15-49

Percentage of eligible women

interviewed

Number Percent

10-14 1,803 na na na 15-19 1,136 1,076 17.0 94.7 20-24 1,225 1,187 18.8 96.9 25-29 1,294 1,266 20.0 97.8 30-34 985 964 15.2 97.8 35-39 811 783 12.4 96.5 40-44 597 589 9.3 98.6 45-49 468 456 7.2 97.4 50-54 539 na na na

15-49 6,517 6,320 100.0 97.0

Note: The de facto population includes all residents and nonresidents who stayed in the household the night before the interview. Weights for both household population of women and interviewed women are household weights. Age is based on the household schedule. na = Not applicable

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Appendix D | 81

PERSONS INVOLVED WITH THE 2010 NIGERIA MALARIA INDICATOR SURVEY (NMIS) Appendix D

2010 Nigeria Malaria Indicator Survey Management Committee (SMC) Dr. Babajide Coker National Malaria Control Programme (NMCP) Chairman Dr. David Durojaiye Mni Programme Management (NMCP)Chiomah Amajoh Integrated Vector Management (NMCP)Adeosun F. Monitoring and Evaluation (NMCP)Pharm. (MRS) Chukwumah Procurement Supply Chain Management (NMCP)Felicia Ewoigbokhan Advocacy, Communication and Social

Mobilization (NMCP)Dr. Godwin Ntadom Case Management (NMCP)Sani Ali Gar National Population Commission (NPC) Project Director Inuwa B. Jalingo National Population Commission (NPC) Project Coordinator Dr. Belay Kassa USAID Adrienne Cox ICF InternationalDr. Olaronke Ladipo Society for Family Health (SFH)Dr. Remi Sogunro Yakubu Gowon Center for International

Development (YGC)Dr. Wole Odutolu World BankDr. Cephas Ityonguzhul World Health Organization (WHO)Adamu Sallau The Carter Center (TCC)Dr. Kolawole Maxwell Support for National Malaria Control Programme

(SUNMAP)Dr. Olusola Oresanya National Malaria Control Programme (NMCP) Secretary

Survey Implementation Committee (SIC)Sani Ali Gar Project Director/NPC Chairman Dr. Oresanya Olusola NMCP Vice Chairman Inuwa B. Jalingo Project Coordinator/NPC Secretary Margaret Edet NPC Ezenwa Nwamaka L. NPC Onuorah Innocent NPC Idris B. Mairuwa NPC Dr. Abimbola Gbenga Olayemi NMCP Jide Banjo NMCP Dr. Samsom Adebayo SFH Ekundayo Arogunde SFH Dr. Bola Njoku YGC Adrienne Cox ICF International

Report WritingSani Ali Gar Project Director/NPCDr. Oresanya Olusola NMCP Inuwa B. Jalingo Project Coordinator/NPCMargaret Edet NPC Ezenwa Nwamaka L. NPC Onuorah Innocent NPC Idris B. Mairuwa NPC Dr. Abimbola Gbenga Olayemi NMCP Jide Banjo NMCP Dr. Samsom Adebayo SFH Deborah Sesugh Mker NMCP Adrienne Cox ICF InternationalTolulope Moody Support Staff/SFH

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Main TrainingSani Ali Gar NPC Trainer Inuwa B. Jalingo NPC Trainer Dr. Oresanya Olusola NMCP Trainer Margaret Edet NPC Trainer Ezenwa Nwamaka L. NPC Trainer Onuorah Innocent NPC Trainer Idris B. Mairuwa NPC Trainer Dr. Abimbola Gbenga Olayemi NMCP Trainer Samsom Olajide Banjo NMCP Trainer Dr. Samsom Adebayo SFH Trainer Ekundayo Arogunde SFH Trainer Deborah Sesugh Mker NMCP Trainer F. Adeosun NMCP M&EF. Okoh NMCP M&E Folawumi A. Agbomola NMCP M&E Omo-Eboh Mamudu NMCP M&EJames Ujor NMCP M&E Musa Erena NPC Secretary Vero Mordi NPC Secretary Yemisi Peters NPC Secretary Tolulope Adeshakin NMCP Secretary L. Yat NMCP Secretary Tony Ugba NMCP Secretary Ohioma NMCP Secretary Johnson NMCP Driver Mr Lawrence Alabi NMCP Driver Mumini Alao NPC Driver James Eborka NPC Driver

Fieldwork/Data CollectionSani Ali Gar Project Director General Oversight Inuwa B. Jalingo Project Coordinator General Oversight/North East

Teams Dr. Oresanya Olusola Vice Chair General Oversight Margaret Edet SIC South South Teams Ezenwa Nwamaka L. SIC South East Teams Onuorah Innocent SIC North Central Teams Idris B. Mairuwa SIC North West Teams Dr. Abimbola Gbenga Olayemi SIC South West Teams Samsom Olajide Banjo SIC General Oversight Lab Issues Dr. Samsom Adebayo SIC SFH Ekundayo Arogunde SIC SFH

Fieldwork Teams 1, 2, and 3Innocent Onuorah Coordinator

Ayuku Sumba North Central Team 1 Supervisor Ayodele Justina Olubusayo North Central Team 1 Nurse Zuokumor Benedicta North Central Team 1 Lab Scientist Idris Fadimatu Idris North Central Team 1 Interviewer Suleiman Usman North Central Team 1 Interviewer Onuminya Ojobi Sheena North Central Team 2 Supervisor Roselyn N. Bako North Central Team 2 Nurse Ossai Martina C. North Central Team 2 Lab Scientist Joyce Kadiri North Central Team 2 Interviewer Ugbaha Sunday North Central Team 2 Interviewer

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Appendix D | 83

Mohammed Suleman North Central Team 3 Supervisor Luka Naomi North Central Team 3 Nurse Moyosore Bolanle North Central Team 3 Lab Scientist Eniola Afuye Margaret North Central Team 3 Interviewer Mohammed Salihu North Central Team 3 Interviewer

Fieldwork Teams 4 and 5 Inuwa B. Jalingo Coordinator

Hudu Babale Tilde North East Team 4 Supervisor Hafsat A. Barau North East Team 4 Nurse Akazi Ugochukwu N. North East Team 4 Lab Scientist Sani Usman North East Team 4 Interviewer Afilia Esthon North East Team 4 Interviewer Bukar Umar North East Team 5 Supervisor Habiba Abdullahi North East Team 5 Nurse Shuaibu Umaru Sule North East Team 5 Lab Scientist Hadiza Ibrahim North East Team 5 Interviewer Bukar Mohammed Isyaku North East Team 5 Interviewer

Fieldwork Teams 6, 7, and 8 Bala Mairuwa Coordinator

Musa Sani Zakirai North West Team 6 Supervisor Talatu Musa Abba North West Team 6 Nurse Shagaya Ishaya J. North West Team 6 Lab Scientist Aisha Abubakar Bello North West Team 6 Interviewer Nasiru Sani Salisu North West Team 6 Interviewer Lawal M. Kurfi North West Team 7 Supervisor Saude Sagir North West Team 7 Nurse Michael Agbo North West Team 7 Lab Scientist Hauwa Musa North West Team 7 Interviewer Sambo Y. Abba North West Team 7 Interviewer Umar Kangiwa North West Team 8 Supervisor Chinasa Doris Okereke North West Team 8 Nurse Omoregbee Wilfred Iziegbe North West Team 8 Lab Scientist Yemisi Imoru Daramola North West Team 8 Interviewer Mustapha M. Galadima North West Team 8 Interviewer

Fieldwork Teams 9 and 10Ezenwa Amaka Coordinator

Nweke Izza Innocent South East Team 9 Supervisor Nkechinyere Azubuike South East Team 9 Nurse Idume Ogbonna Nwachi South East Team 9 Lab Scientist Ernest Ugorji C. South East Team 9 Interviewer Rose Okeke South East Team 9 Interviewer Onwunka Patrick A. South East Team 10 Supervisor Ani Ugoihi E. South East Team 10 Nurse Eze Ukpai Agwu South East Team 10 Lab Scientist Okonkwo Happiness E. South East Team 10 Interviewer Nwanguma Cyril South East Team 10 Interviewer

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Fieldwork Teams 11 and 12 Dr. Abimbola Gbenga Olayemi Coordinator Ayodele George South West Team 11 Supervisor Sanni Olabisi A. South West Team 11 Nurse Kolawole Ibukun South West Team 11 Lab Scientist Gbenga Olayomi South West Team 11 Interviewer Omolade Folasade M. South West Team 11 Interviewer Kolade Oludare South West Team 12 Supervisor Oni Felix Oluwaseun South West Team 12 Nurse Ojaoba Abiola Grace South West Team 12 Lab Scientist Abike B. Olabode South West Team 12 Interviewer Adetokunbo Adetutu South West Team 12 Interviewer

Fieldwork Teams 13, 14, and 15 Margaret Edet Coordinator

Nyeke Miamon W. South South Team 13 Supervisor Adonkie Amaebi South South Team 13 Interviewer Idiami A.W. Odu South South Team 13 Interviewer Beinmonyo Marian Walter South South Team 13 Nurse Kanu Onyekachi E. South South Team 13 Lab Scientist Asibong Ibe Udeme South South Team 14 Supervisor Stella Ogar Anya South South Team 14 Interviewer Effiong Etta Bassey South South Team 14 Interviewer Chukwu Franca South South Team 14 Nurse Emem Monday Henry South South Team 14 Lab Scientist Ojo G.O. South South Team 15 Supervisor Okwara Nneka Nonye South South Team 15 Interviewer Iduma Agnes Ikpeghe South South Team 15 Interviewer Arubi Stella Okiemute South South Team 15 Nurse Stephen Nnenna South South Team 15 Lab Scientist

Quality Control Team/ReservesNasiru Oziohu Grace North Central Quality Control Interviewer Nneka P. Njoku South East Quality Control Interviewer Matilda Ojong Arrey South South Quality Control Interviewer Maryam Mahmoud North West Quality Control Interviewer Adesida Janet Bola South West Quality Control Interviewer Abbas Audi Kyaya North East Quality Control Interviewer Ewuosho F.O. Reserve Lab Scientist Folorunso T.K. Reserve Interviewer Okwor Blessing N. Reserve Interviewer Agnes Fwangchi Reserve Nurse Obanor Juliana Reserve Interviewer

Fieldwork DriversMani Umaru NW Zonal Logistics/Movement of Slides Driver Musa Isa Fieldwork KT/KD Team Driver Danladi Yusuf Fieldwork KN/JG Team Driver Abubakar Sadiq Fieldwork KB/SOK/ZAM Team Driver Bala Maidawa Fieldwork NE Bauchi, Gombe and Taraba Driver Saliu Sunday Siaka Fieldwork NC Benue and Kogi Driver Effiong T. Udoh Fieldwork SS Akwa Ibom and Cross Rivers Driver Yakubu Ibrahim Fieldwork Kwara/Niger Driver

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Appendix D | 85

Ahmadu Yakubu NE Zonal Logistics/Movement of Slides Driver Adeeyanju Israel Adeniyi Fieldwork SW Ogun and Lagos Driver Adewale Adesulu Fieldwork SW Ondo Ekiti and Osun Driver Bayo Oluwo SW Zonal Logistics/Movement of Slides Driver Paschal Irom Agbor Fieldwork SS Bayelsa and Rivers Driver Isa Ibrahim Usman Fieldwork NE Borno, Yobe and Adamawa Driver Sunday Olukoye Biomarker Field Monitoring Driver Mumini Alao Field Monitoring Driver James Eborka Field Monitoring Driver Ademoyero Shieola Awokoya Field Monitoring Driver Abdullahi Sani Field Monitoring Driver Abdulahi Dambazau Field Monitoring Driver Lambert Ezeala Field Monitoring Driver David Dada Field Monitoring Driver Sunday Adekoya Field Monitoring Driver Lawrence Alabi Field Monitoring Driver Aruwa Chimezi Fieldwork SE Team Imo/Abia Driver Cyprian Okeke Fieldwork SE Team Enugu/Anambra/Ebonyi Driver

Slide Logistics TeamDeborah Sesugh Mker Central Lab (Receiving Officer) Lab Scientist Bello Isah North West Lab Scientist Akindele Samuel South West Lab Scientist Agwuble Ugenyi E. South South Lab Scientist Miracle Ngozi Nwafor North Central Lab Scientist Nebo Michael South West Lab Scientist Alkassim Dalhatu North East Lab Scientist

Fieldwork MonitoringDr. Babajide Coker Lagos Monitor Ayo Ojomu Lagos Monitor F. Okoh Ogun Monitor Adelusi Sunday Ogun Monitor Pharm. (MRS) Chukwumah Ondo Monitor Abel Ajeigbe Osun Monitor Samson Olajide Banjo Osun Monitor Aro Modiu Oyo Monitor Adebeshin Ekiti Monitor Dr. Adebayo S. (SFH) Ekiti Monitor Margret Lediju Benue Monitor Tunde Ipaye FCT Monitor F. Adeosun Kogi Monitor Dr. David Durojaiye Kwara Monitor Dr. Ronke Agbaje (IHVN) Kwara Monitor Pharm. Olusola Idowu Nasarawa Monitor Kunmi Kolade Nasarawa Monitor Adedapo Adewumi Nasarawa Monitor Felicia Ewoigbokhan Niger Monitor Dawaba Mercy Niger Monitor Dr. Omede O. Plateau Monitor Abdulsalaam C. Plateau Monitor Dr. Zainab Onotu Adamawa Monitor Musa Abubakar (SFH) Adamawa Monitor Joshua Olatunji (ARFH) Bauchi Monitor Dr. Audu B.M. Borno Monitor Fati Murtala-Ibrahim Gombe Monitor

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86 | Appendix D

Rosemary Obiorah Gombe Monitor Jonah Ladi Yobe Monitor Musa Abubakar (SFH) Yobe Monitor Yemisi Ogunbiyi Jigawa Monitor Tim Obot Kaduna Monitor Ronke Agbaje Kano Monitor Yussuf Danjuma Katsina Monitor Donarld Ordu Kebbi Monitor Dr. Femi Ajumobi Sokoto Monitor Chagbe Stephanie Zamfara Monitor Ifeanyi Okorafor Abia Monitor Promise Udoh Anambra Monitor Emma Onyefunofua Ebonyi Monitor Dr. Ntadom Enugu Monitor Dr. Elikwu Imo Monitor Onnoghen Akwa Ibom Monitor Dr. Uwem Inyang (SFH) Akwa Ibom Monitor James Ujor Bayelsa Monitor Awoyo Abimbola Bayelsa Monitor Chioma Amajoh Cross River Monitor Deborah Dyeris Cross River Monitor R.N. Semlek Delta Monitor Ope Abegunde Delta Monitor Mamudu Omo-Eboh Edo Monitor Asehinde Oreoluwa Rivers Monitor Ekundayo Arogundade (SFH) Rivers Monitor

Secondary EditingMargaret Edet Coordinator Onuorah Innocent Coordinator Abubakar Madaki Entry Operator Michael Bello Entry Operator Atula Julius Supervisor Ibe Geoffrey Supervisor Obinna Nwankwo Archivist Egbejinmi M.O. DPA

Data ProcessingAtula Julius Supervisor Ibe Geoffrey Supervisor Agekamhe Joseph Editor/Coder Ahmed Umar Gassol Editor/Coder Elias E.O. (MRS) Archivist Jolaoluwa Micheal Plant Operator Moses O. Egbejinmi DPA Comfort Omoniyi Data Entry Operator Clara Onwubuya Data Entry Operator Juliet Abah Data Entry Operator Abubakar Madaki Data Entry Operator Olufunke Essien Data Entry Operator Damilare Awodiya Data Entry Operator Micheal Bello Data Entry Operator Okocha Samuel Data Entry Operator Ferdinand Ishorkor Data Entry Operator Ayodeji Aluko Data Entry Operator

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Appendix D | 87

Household Listing TeamsChike N. Moronu North East Trainer Ologun Olusegun Raphael North Central Trainer Ibrahim Hamisu Sale South West Trainer Jude Ezeoke South East Trainer Tellson Osifo Ojogun South South Trainer Fasiku A. David North West Trainer Mohammed Musa Abubakar North Central Supervisor Ahmed A. Kumo North East Supervisor Kassim Muhammad North West Supervisor Onyia Ngozi Ethel South East Supervisor Bassey Eteng South South Supervisor Abubakar Bello Afegbua South West Supervisor Alaba S.A. South West Lister Bassey Brendan Effiong South West Lister Joy Uwadia South West Lister Sodipo Babatunde South West Lister Apanisile M Olubodun South West Lister Ogungbade J.A. South West Lister Fasipe Folarin South West Lister Isong Udo Udo South South Lister Gabriel Coker South South Lister Egbivwie Ernest Ese South South Lister James Isibor South South Lister Owan Kennet Enoh South South Lister Mike Attah South South Lister Aganaba Womoemi South South Lister Alfred Tunde Yoyo South South Lister Onwueyi Fyne South East Lister Emma Nwakile South East Lister Chima Glory South East Lister Ugwu Brendan South East Lister Uwadi Samuel N. South East Lister Igboanusi Chibuzor Jay South East Lister Anuforo Vitus South East Lister Sani Saidu North West Lister Musbahu Bawa North West Lister Abdullahi Muhd Inuwa North West Lister Shehu Abdullahi North West Lister Abdullahi B Danfulani North West Lister Magaji Aliyu Kardi North West Lister Yahaya Yanusa Kigo North West Lister Suleiman A. Yusuf North West Lister Ibrahim Maje Pijjani North West Lister Abubakar Jibrin North West Lister Dalatu Solomon North East Lister Ibrahim A. Tudu North East Lister Musa Umar Mohd North East Lister Mohammed A. Milala North East Lister Ahidjo Adamu Sabuda North East Lister Danjuma V. Mto North East Lister Betene Ishaku North East Lister Mohammed Isa North East Lister Adedoyin Adetayo North Central Lister Thomas Anhange North Central Lister Mohammed Salihu North Central Lister

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88 | Appendix D

Usman Haruna Eneye North Central Lister Okereke Mathew A. North Central Lister Vero Mordi North Central Lister Jimoh O. Aliu North Central Lister Yahaya Olusola Gegele North Central Lister Dasplang Sunday North Central Lister Ibrahim Garba Gbage North Central Lister Umar Shehu Usman North Central Lister Akanbi Olalekan Dauad North Central Lister Ismaila Ahmed North Central Lister Sani Ali Gar North Central Monitor Inuwa B. Jalingo North East Monitor Dr. Oresanya Olusola South West Monitor

ICF International Staff Adrienne Cox Survey Specialist/Country Manager Alfredo Aliaga Sampling Statistician Dean Garrett Biomarker Specialist Jasbir Sangha Biomarker Specialist Guillermo Rojas Data Processing Specialist Mianmian Yu Data Processing Specialist Zhuzhi Moore Country Manager/Report Editing Nancy Johnson Senior Editor Chris Gramer Report Production Specialist Kia Reinis Data Quality Coordinator/Report Reviewer Barbara Yang Biomarker Supplies Procurement Coordinator Sam Nsobya Lubwama Laboratory Expert

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Appendix E | 89

QUESTIONNAIRES Appendix E

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29 September 2010

NIGERIA MALARIA INDICATOR SURVEYHOUSEHOLD QUESTIONNAIRE

NATIONAL POPULATION COMMISSION National Health Research Ethics CommitteeNATIONAL MALARIA CONTROL PROGRAM Assigned Number NHREC/01/01/2007 - 10/09/2010b

IDENTIFICATION

STATE . . . . . . . . . . . . . . . . . . . . . . . . . . . .

LOCAL GOVT. AREA . . . . . . . . . . . . . . . . . . . . . . . . . . . .

LOCALITY

ENUMERATION AREA . . . . . . . . . . . . . . . . . . . . . . .

URBAN/RURAL (URBAN=1, RURAL=2) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

CLUSTER NUMBER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

BUILDING NUMBER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

HOUSEHOLD HEAD NAME/NUMBER

INTERVIEWER VISITS

FINAL VISIT

DATE DAY

MONTH

YEAR

INTERVIEWER'S NAME INT. NUMBER

RESULT* RESULT

NEXT VISIT: DATETOTAL NUMBER

TIME OF VISITS

*RESULT CODES: TOTAL PERSONS1 COMPLETED IN HOUSEHOLD2 NO HOUSEHOLD MEMBER AT HOME OR NO COMPETENT RESPONDENT

AT HOME AT TIME OF VISIT TOTAL ELIGIBLE3 ENTIRE HOUSEHOLD ABSENT FOR EXTENDED PERIOD OF TIME WOMEN4 POSTPONED5 REFUSED TOTAL ELIGIBLE6 DWELLING VACANT OR ADDRESS NOT A DWELLING CHILDREN7 DWELLING DESTROYED AGE 0-5 YEARS8 DWELLING NOT FOUND9 OTHER LINE NO. OF

(SPECIFY) RESPONDENT TO HOUSEHOLDQUESTIONNAIRE

LANGUAGE OF QUESTIONNAIRE** ENGLISH

LANGUAGE OF INTERVIEW** . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

NATIVE LANGUAGE OF RESPONDENT** . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

TRANSLATOR USED (1=NOT AT ALL; 2=SOMETIME; 3=ALL THE TIME) . . . . .

**LANGUAGE CODES: 1 HAUSA 3 IGBO 6 OTHER2 YORUBA 4 ENGLISH (SPECIFY)

SUPERVISOR/EDITOR

NAME

DATE

C O N F I D E N T I A L

1 2 3

2 0 1 0

OFFICE

4

KEYED BYEDITOR

| 91Appendix E

Page 106: Nigeria Malaria Indicator Survey [MIS8]

Introduction and Consent

Greetings. My name is _______________________________________ and I am working with National Population Commission.We are conducting a national survey that asks women and men about various health issues. This study has been reviewed andgranted approval by the National Health Research Ethics Committee, assigned number NHREC/01/01/2007, for the study period of September 2010 to September 2011. We would very much appreciate your participation in this survey. This information will help the government to plan health services. The survey usually takes between 20 and 30 minutes to complete. Whateverinformation you provide will be kept strictly confidential and will not be shown to other persons. Should you have any questions,feel free to call any of the following contact person(s):

2010 NMIS Contact Person, NPC: Project Director; Email: [email protected]; Phone: 08033708114NMCP Contact Person: National Coordinator; Email: [email protected]; Phone: 08037860784 NHREC Contact Person(s): Secretary, NHREC; Email: [email protected]; Phone: 08033143791

Desk Officer, NHREC; Email: [email protected]; Phone: 08065479926

As part of the survey we would first like to ask some questions about your household. All of the answers you give will be confidential. As part of this survey, we are asking that children all over the country take an anemia test. Anemia is a serious health problem that usually results from poor nutrition, infection, or disease. This survey will help the government to develop programs toprevent and treat anemia. As part of this survey, we are asking that children all over the country take a test to see if they have malaria.Malaria is a serious illness caused by a parasite transmitted by a mosquito bite. If the malaria test is positive, treatment will be offered.This survey will help the government to develop programs to prevent malaria. Participation in the survey is completely voluntary. If weshould come to any question you don't want to answer, just let me know and I will go on to the next question; or you can stop theinterview at any time. However, we hope you will participate in the survey since your views are important.

At this time, do you want to ask me anything about the survey? May I begin the interview now?

Signature of interviewer: Date:

Signature/thumb print of respondent: Date:

RESPONDENT AGREES TO BE INTERVIEWED 1 RESPONDENT DOES NOT AGREE TO BE INTERVIEWED 2 ENDRESPONDENT AGREES TO BE INTERVIEWED . . 1 RESPONDENT DOES NOT AGREE TO BE INTERVIEWED 2 END

92 | Appendix E

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HOUSEHOLD SCHEDULE

LINE USUAL RESIDENTS AGE CHILD-NO. AND VISITORS REN

0- 5

Please give me the What is Is Does Did How CIRCLE Is CIRCLEnames of the persons the (NAME) (NAME) (NAME) oold was LINE (NAME) LINEwho usually live in your relation- male or usually stay (NAME) NUM- currently NUM-household and guests of ship of female? live here at his/her BER pregnant? BERthe household who (NAME) here? last last OF ALL OF ALLstayed here last night, to the night? birthday? WOMEN CHILD-starting with the head head AGE RENof the household. of the 15-49 AGE

house- YEARS 0-5AFTER LISTING THE hold? YEARSNAMES, RELATIONSHIPAND SEX FOR EACH SEEPERSON, ASK QUESTIONS CODES2A-2C TO BE SURE THE BELOW.LISTING IS COMPLETE.

THEN ASK APPROPRIATE QUESTIONS IN COLUMNS5-14 FOR EACH PERSON.

(1) (2) (8) (10)

M F YES NO YES NO IN YEARS YES NO/DK

01 1 2 1 2 1 2 01 1 2 01

02 1 2 1 2 1 2 02 1 2 02

03 1 2 1 2 1 2 03 1 2 03

04 1 2 1 2 1 2 04 1 2 04

05 1 2 1 2 1 2 05 1 2 05

WOMEN AGE 15-49

(4) (5) (6) (9)(3) (7)

RELA-TION-SHIP

SEX RESIDENCE

06 1 2 1 2 1 2 06 1 2 06

07 1 2 1 2 1 2 07 1 2 07

08 1 2 1 2 1 2 08 1 2 08

09 1 2 1 2 1 2 09 1 2 09

10 1 2 1 2 1 2 10 1 2 10

2A) Just to make sure that I have a complete listing, are there any other persons such as small children or infants that we have not listed? YES ENTER EACH IN TABLE NO

2B) Are there any other people who may not be members of your family, like domestic servants, lodgers, or friends who usually live here? YES ENTER EACH IN TABLE NO

2C) Are there any guests or temporary visitors staying here, or anyone else who stayed here last night, who have not been listed? YES ENTER EACH IN TABLE NO

CODES FOR Q. 3: RELATIONSHIP TO HEAD OF HOUSEHOLD

01 = HEAD 08 = BROTHER OR SISTER02 = WIFE OR HUSBAND 09 = NIECE/NEPHEW BY BLOOD03 = SON OR DAUGHTER 10 = NIECE/NEPHEW BY MARRIAGE04 = SON-IN-LAW OR 11 = OTHER RELATIVE

DAUGHTER-IN-LAW 12 = ADOPTED/FOSTER/STEPCHILD05 = GRANDCHILD 13 = NOT RELATED06 = PARENT 98 = DON'T KNOW07 = PARENT-IN-LAW

| 93Appendix E

Page 108: Nigeria Malaria Indicator Survey [MIS8]

LINE IF AGE 5 YEARS FOR EVERYONENO. OR OLDER FEVER AND TREATMENT

EVER ATTENDED In the last Did Where HowSCHOOL 2 weeks, (NAME) did much

has get any (NAME) didHas What is the (NAME) treatment first seek the (NAME) highest level of been sick for the treat- treatmentever school (NAME) with a fever ment? cost?attended has attended? fever at in the school? any time? last 2 USE INCLUDE COST OF DOCTOR,

SEE CODES weeks? CODES NURSE, DRUGS, TESTS.BELOW. BELOW.

IF > 99990, WRITE '99990'.What is the IF FREE, CIRCLE CODE '99995'.highest grade(NAME)completed at that level?

SEE CODESBELOW.

(13)

CLASS/Y N LEVEL YEAR Y N DK Y N DK

01 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

02 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

03 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

04 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

05 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.

(12)(10A) (10B)

NAIRA

(14)(11)

FREE . . . . . . . . . . 99995

06 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

07 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

08 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

09 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

10 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

CODES FOR Q. 10B: EDUCATION

EDUCATION LEVEL: EDUCATION YEAR:

0=PRE-PRIMARY/KINDERGARTEN 01 - 03 = YEARS AT PRE-PRIMARY/KINDERGARDEN LEVEL1 = PRIMARY 01 - 06 = YEARS 1 - 6 AT PRIMARY LEVEL2 = SECONDARY 01 - 06 = YEARS 1 - 6 AT SECONDARY LEVEL3 = HIGHER 01 - TOTAL NUMBER OF YEARS AT HIGHER LEVEL*8 = DON'T KNOW 00 = LESS THAN 1 YEAR COMPLETED

98 = DON'T KNOW*FOR "HIGHER", TOTAL THE NUMBER OF YEARS

AT THE POST-SECONDARY LEVEL

CODES FOR Q. 13: PLACE OF TREATMENT

01 = GOVERNMENT HOSPITAL 09 = SHOP02 = GOVERNMENT HEALTH CENTER 10 = TRADITIONAL PRACTITIONER03 = GOVERNMENT HEALTH CLINIC 11 = ROLE MODEL CAREGIVER/ COMMUNITY WORKER04 = PRIVATE HOSPITAL/CLINIC 12 = DRUG HAWKER05 = PHARMACY 13 = SELF TREATMENT AT HOME06 = PRIVATE DOCTOR 96 = OTHER07 = MOBILE CLINIC 98 = DOES NOT KNOW08 = CHEMIST/PMV

94 | Appendix E

Page 109: Nigeria Malaria Indicator Survey [MIS8]

HOUSEHOLD SCHEDULE

LINE USUAL RESIDENTS AGE CHILD-NO. AND VISITORS REN

0- 5

Please give me the What is Is Does Did How CIRCLE Is CIRCLEnames of the persons the (NAME) (NAME) (NAME) oold was LINE (NAME) LINEwho usually live in your relation- male or usually stay (NAME) NUM- currently NUM-household and guests of ship of female? live here at his/her BER pregnant? BERthe household who (NAME) here? last last OF ALL OF ALLstayed here last night, to the night? birthday? WOMEN CHILD-starting with the head head AGE RENof the household. of the 15-49 AGE

house- YEARS 0-5AFTER LISTING THE hold? YEARSNAMES, RELATIONSHIPAND SEX FOR EACH SEEPERSON, ASK QUESTIONS CODES2A-2C TO BE SURE THE BELOW.LISTING IS COMPLETE.

THEN ASK APPROPRIATE QUESTIONS IN COLUMNS5-14 FOR EACH PERSON.

WOMEN AGE 15-49RELA-TION-SHIP

SEX RESIDENCE

(1) (2) (8) (10)

M F Y N Y N Y N

11 1 2 1 2 1 2 11 1 2 11

12 1 2 1 2 1 2 12 1 2 12

13 1 2 1 2 1 2 13 1 2 13

14 1 2 1 2 1 2 14 1 2 14

15 1 2 1 2 1 2 15 1 2 15

(9)(7)(3) (4) (5)

IN YEARS

(6)

16 1 2 1 2 1 2 16 1 2 16

17 1 2 1 2 1 2 17 1 2 17

18 1 2 1 2 1 2 18 1 2 18

19 1 2 1 2 1 2 19 1 2 19

20 1 2 1 2 1 2 20 1 2 20

TICK HERE IF CONTINUATION SHEET USED

2A) Just to make sure that I have a complete listing, are there any other persons such as small children or infants that we have not listed? YES ENTER EACH IN TABLE NO

2B) Are there any other people who may not be members of your family, like domestic servants, lodgers, or friends who usually live here? YES ENTER EACH IN TABLE NO

2C) Are there any guests or temporary visitors staying here, or anyone else who stayed here last night, who have not been listed? YES ENTER EACH IN TABLE NO

| 95Appendix E

Page 110: Nigeria Malaria Indicator Survey [MIS8]

LINE IF AGE 5 YEARS FOR EVERYONENO. OR OLDER FEVER AND TREATMENT

EVER ATTENDED In the last Did Where HowSCHOOL 2 weeks, (NAME) did much

has get any (NAME) didHas What is the (NAME) treatment first seek the (NAME) highest level of been sick for the treat- treatmentever school (NAME) with a fever ment? cost?attended has attended? fever at in the school? any time? last 2 USE INCLUDE COST OF DOCTOR,

SEE CODES weeks? CODES NURSE, DRUGS, TESTS.BELOW. BELOW.

IF > 99990, WRITE '99990'.What is the IF FREE, CIRCLE CODE '99995'.highest grade(NAME)completed at that level?

SEE CODESBELOW.

(1)

CLASS/Y N LEVEL YEAR Y N DK Y N DK

11 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

12 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

13 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINEFREE . . . . . . . . . . 99995

14 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

15 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE 99995

(14)(12) (13)(11)

NAIRA

(10A (10B)

FREE . . . . . . . . . . 99995

16 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

17 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

18 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

19 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

20 1 2 1 2 8 1 2 8

GO TO 11 NEXT LINE NO. NEXT LINE NO.FREE . . . . . . . . . . 99995

CODES FOR Q. 10B: EDUCATION

EDUCATION LEVEL: EDUCATION YEAR:

0=PRE-PRIMARY/KINDERGARTEN 01 - 03 = YEARS AT PRE-PRIMARY/KINDERGARDEN LEVEL1 = PRIMARY 01 - 06 = YEARS 1 - 6 AT PRIMARY LEVEL2 = SECONDARY 01 - 06 = YEARS 1 - 6 AT SECONDARY LEVEL3 = HIGHER 01 - TOTAL NUMBER OF YEARS AT HIGHER LEVEL*8 = DON'T KNOW 00 = LESS THAN 1 YEAR COMPLETED

98 = DON'T KNOW*FOR "HIGHER", TOTAL THE NUMBER OF YEARS

AT THE POST-SECONDARY LEVEL

CODES FOR Q. 13: PLACE OF TREATMENT

01 = GOVERNMENT HOSPITAL 09 = SHOP02 = GOVERNMENT HEALTH CENTER 10 = TRADITIONAL PRACTITIONER03 = GOVERNMENT HEALTH CLINIC 11 = ROLE MODEL CAREGIVER/ COMMUNITY WORKER04 = PRIVATE HOSPITAL/CLINIC 12 = DRUG HAWKER05 = PHARMACY 13 = SELF TREATMENT AT HOME06 = PRIVATE DOCTOR 96 = OTHER07 = MOBILE CLINIC 98 = DOES NOT KNOW08 = CHEMIST/PMV

96 | Appendix E

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NO. QUESTIONS AND FILTERS SKIP

15 What is the main source of drinking water for members of PIPED WATERyour household? PIPED INTO DWELLING . . . . . . . . . . . . 11

PIPED TO YARD/PLOT . . . . . . . . . . . . 12PUBLIC TAP/STANDPIPE . . . . . . . . . 13

TUBE WELL OR BOREHOLE . . . . . . . . . 21DUG WELL

HAND PUMP, PROTECTED WELL . . . 31UNPROTECTED WELL . . . . . . . . . . . . 32

WATER FROM SPRINGPROTECTED SPRING . . . . . . . . . . . . 41UNPROTECTED SPRING . . . . . . . . . 42

RAINWATER . . . . . . . . . . . . . . . . . . . . 51TANKER TRUCK . . . . . . . . . . . . . . . . . . 61CART WITH SMALL TANK . . . . . . . . . 71SURFACE WATER/RIVER/LAKE/STREAM 81BOTTLED WATER . . . . . . . . . . . . . . . . . . 91WATER SACHETS (PURE WATER) . . . . . 92

OTHER 96(SPECIFY)

16 What kind of toilet facility do members of your household FLUSH OR POUR FLUSH TOILETusually use? FLUSH TO PIPED SEWER SYSTEM . 11

FLUSH TO SEPTIC TANK . . . . . . . . . 12FLUSH TO PIT LATRINE . . . . . . . . . . . . 13FLUSH TO SOMEWHERE ELSE . . . . . 14FLUSH, DON'T KNOW WHERE . . . . . 15

PIT LATRINEVENTILATED IMPROVED PIT LATRINE 21PIT LATRINE WITH SLAB 22

HOUSEHOLD CHARACTERISTICS

CODING CATEGORIES

PIT LATRINE WITH SLAB . . . . . . . . . 22PIT LATRINE WITHOUT SLAB/OPEN PIT 23

COMPOSTING TOILET. . . . . . . . . . . . . . . . 31BUCKET TOILET . . . . . . . . . . . . . . . . . . . . 41HANGING TOILET/HANGING LATRINE . 51NO FACILITY/BUSH/FIELD . . . . . . . . . . . . 61

OTHER 96(SPECIFY)

17 Does your household have the following items which arein good working order: YES NO

Electricity? ELECTRICITY . . . . . . . . . . . . . . 1 2A radio? RADIO . . . . . . . . . . . . . . . . . . . . 1 2A television? TELEVISION . . . . . . . . . . . . . . 1 2A mobile telephone? MOBILE TELEPHONE . . . . . 1 2A non-mobile telephone? NON-MOBILE TELEPHONE . 1 2A refrigerator? REFRIGERATOR . . . . . . . . . 1 2A cable TV ? CABLE TV . . . . . . . . . . . . . . . . 1 2A generating set ? GENERATING SET . . . . . . . . . 1 2Airconditioner ? AIR CONDITIONER . . . . . . . . . 1 2A computer ? COMPUTER . . . . . . . . . . . . . . . . 1 2Electric iron ? ELECTRIC IRON . . . . . . . . . . . . 1 2A fan ? FAN . . . . . . . . . . . . . . . . . . . . 1 2

| 97Appendix E

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NO. QUESTIONS AND FILTERS SKIPCODING CATEGORIES

18 What type of fuel does your household mainly use for ELECTRICITY . . . . . . . . . . . . . . . . . . . . . . 01cooking? LPG/COOKING GAS . . . . . . . . . . . . . . . . 02

NATURAL GAS . . . . . . . . . . . . . . . . . . . . 03BIOGAS . . . . . . . . . . . . . . . . . . . . . . . . . . 04KEROSENE . . . . . . . . . . . . . . . . . . . . . . 05COAL, LIGNITE . . . . . . . . . . . . . . . . . . . . 06CHARCOAL . . . . . . . . . . . . . . . . . . . . . . 07WOOD . . . . . . . . . . . . . . . . . . . . . . . . . . 08STRAW/SHRUBS/GRASS . . . . . . . . . . . . 09AGRICULTURAL CROP . . . . . . . . . . . . . . 10ANIMAL DUNG . . . . . . . . . . . . . . . . . . . . 11

NO FOOD COOKED IN HOUSEHOLD . . . . . . . . . . . . . . . . . . 95

OTHER 96(SPECIFY)

19 MAIN MATERIAL OF THE FLOOR OF THE HOUSEHOLD. NATURAL FLOOREARTH/SAND/MUD . . . . . . . . . . . . . . . . 11

RECORD OBSERVATION. RUDIMENTARY FLOORWOOD PLANKS . . . . . . . . . . . . . . . . 21

IF DIFFERENT ROOMS HAVE DIFFERENT FLOOR FINISHED FLOORMATERIAL, CIRCLE THE CODE FOR THE MOST PARQUET OR POLISHED WOOD . . . 31COMMON, i.e., WHAT COVERS THE LARGEST AREA. FLOOR MAT, LINOLEUM, VINYL . . . . . 32

CERAMIC TILES . . . . . . . . . . . . . . . . 33CONCRETE, CEMENT . . . . . . . . . . . . . . 34CARPET . . . . . . . . . . . . . . . . . . . . . . . . 35

OTHER 96(SPECIFY)

20 MAIN MATERIAL OF THE ROOF OF THE HOUSEHOLD. NATURAL ROOFINGTHATCH/PALM LEAF . . . . . . . . . . . . . . 11

RECORD OBSERVATION. RUDIMENTARY ROOFINGPALM/BAMBOO/MATS . . . . . . . . . . . . 21WOOD PLANKS . . . . . . . . . . . . . . . . . . 22TARPAULIN, PLASTIC . . . . . . . . . . . . . . 23

FINISHED ROOFINGZINC, METAL . . . . . . . . . . . . . . . . . . . . 31WOOD . . . . . . . . . . . . . . . . . . . . . . . . 32CERAMIC TILES . . . . . . . . . . . . . . . . . . 34CONCRETE, CEMENT . . . . . . . . . . . . . . 35ASBESTOS SHEETS, SHINGLES . . . 36

OTHER 96(SPECIFY)

21 MAIN MATERIAL OF THE OUTSIDE WALLS OF THE NATURAL WALLSHOUSEHOLD. MUD AND STICKS . . . . . . . . . . . . . . . . 11

CANE/PALM/TRUNKS . . . . . . . . . . . . . . 12RECORD OBSERVATION. STRAW, THATCH MATS . . . . . . . . . . . . 13

RUDIMENTARY WALLSMUD BRICKS . . . . . . . . . . . . . . . . . . . . 21PLYWOOD, REUSED WOOD . . . . . . . 22CARDBOARD, PLASTIC . . . . . . . . . 23

FINISHED WALLSCEMENT OR STONE BLOCKS. . . . . . . 31BRICKS . . . . . . . . . . . . . . . . . . . . . . . . 32WOOD PLANKS/SHINGLES . . . . . . . 33

OTHER 96(SPECIFY)

98 | Appendix E

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NO. QUESTIONS AND FILTERS SKIPCODING CATEGORIES

21A How many rooms in total are in your household, including rooms for sleeping and all other rooms? ROOMS (TOTAL) . . . . . . . . . . . . . .

INCLUDE ALL STRUCTURES BELONGING TO THE HOUSEHOLD DWELLING.

21B How many rooms are used for sleeping in yourhousehold? NUMBER OF ROOMS (SLEEPING)

21C How many sleeping facilities are currently in usein this household, including any beds, mattresses, mats, NUMBER OF SLEEPING FACILITIESor rugs?

ASK FOR BOTH INSIDE AND OUTSIDE OF DWELLING.

22 Does any member of this household own: YES NO

A canoe? CANOE . . . . . . . . . . . . . . . . . . 1 2

A bicycle? BICYCLE . . . . . . . . . . . . . . . . 1 2

A motorcycle or motor scooter? MOTORCYCLE/SCOOTER . 1 2

An animal-drawn cart? ANIMAL-DRAWN CART . . . 1 2

A car or truck? CAR/TRUCK . . . . . . . . . . . . . . 1 2

A boat with a motor? BOAT WITH MOTOR . . . . . . . 1 2

23 At any time in the past 12 months, has anyone come into YES 1your dwelling to spray the interior walls against NO 2mosquitoes? DON'T KNOW 8 25

24 Who sprayed the dwelling? GOVERNMENT WORKER/PROGRAM 1PRIVATE COMPANY 2

OTHER 6OTHER 6SPECIFY

DON'T KNOW 8

25 Does your household have any mosquito nets that YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1can be used while sleeping? NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2

26 Why doesn't your household have any mosquito nets? NO MOSQUITOES . . . . . . . . . . . . . . . . . . ANOT AVAILABLE . . . . . . . . . . . . . . . . . . B

CIRCLE ALL MENTIONED. DON'T LIKE TO USE NETS . . . . . . . . . . . . CTOO EXPENSIVE . . . . . . . . . . . . . . . . . . . . D

OTHER X(SPECIFY)

27 How many mosquito nets does your household have?NUMBER OF NETS . . . . . . . . . . . . . . . .

IF 7 OR MORE NETS, RECORD '7'.

27

40

| 99Appendix E

Page 114: Nigeria Malaria Indicator Survey [MIS8]

28 ASK RESPONDENT TO SHOW YOU OBSERVED, BUT OBSERVED, BUT OBSERVED, BUTTHE NETS. IF MORE THAN 3, USE HAS HOLES . . . . . . . . . . . . 1 HAS HOLES . . . . . . . . . . . . 1 HAS HOLES . . . . . . . . . . . . 1ADDITIONAL QUESTIONNAIRE(S). OBSERVED, DOES OBSERVED, DOES OBSERVED, DOES

NOT HAVE HOLES . . . . . . . . 2 NOT HAVE HOLES . . . . . . . . 2 NOT HAVE HOLES . . . . . . . . 2 NOT OBSERVED . . . . . . . . . . 3 NOT OBSERVED . . . . . . . . . . 3 NOT OBSERVED . . . . . . . . . . 3

28A OBSERVER OR ASK IF NET IS OBSERVED OBSERVED OBSERVEDHANGING. HANGING . . . . . . . . . . . . 1 HANGING . . . . . . . . . . . . 1 HANGING . . . . . . . . . . . . 1

NOT HANGING . . . . . . . . 2 NOT HANGING . . . . . . . . 2 NOT HANGING . . . . . . . . 2

NOT OBSERVED NOT OBSERVED NOT OBSERVEDHANGING . . . . . . . . . . . . 3 HANGING . . . . . . . . . . . . 3 HANGING . . . . . . . . . . . . 3NOT HANGING . . . . . . . . 4 NOT HANGING . . . . . . . . 4 NOT HANGING . . . . . . . . 4

29 How many months ago did your MONTHS MONTHS MONTHShousehold obtain the mosquito net? AGO . . . . . . AGO . . . . . . AGO . . . . . .

IF LESS THAN ONE MONTH, MORE THAN 36 MORE THAN 36 MORE THAN 36WRITE '00'. MONTHS AGO . . . . . . . . . . 95 MONTHS AGO . . . . . . . . . . 95 MONTHS AGO . . . . . . . . . . 95

NOT SURE . . . . . . . . . . . . . . 98 NOT SURE . . . . . . . . . . . . . . 98 NOT SURE . . . . . . . . . . . . . . 98

29A Where did you obtain this NET DISTRIBUTION NET DISTRIBUTION NET DISTRIBUTIONmosquito net? CAMPAIGN . . . . . . . . 01 CAMPAIGN . . . . . . . . 01 CAMPAIGN . . . . . . . . 01

PRIMARY HEALTH CENTER/ PRIMARY HEALTH CENTER/ PRIMARY HEALTH CENTER/HEALTH POST . . . . . . 02 HEALTH POST . . . . . . 02 HEALTH POST . . . . . . 02

GOVERNMENT GOVERNMENT GOVERNMENTHOSPITAL . . . . . . . . . . 03 HOSPITAL . . . . . . . . . . 03 HOSPITAL . . . . . . . . . . 03

PRIVATE HOSPITAL . . . 04 PRIVATE HOSPITAL . . . 04 PRIVATE HOSPITAL . . . 04NGO/MISSION CLINIC . . . 05 NGO/MISSION CLINIC . . . 05 NGO/MISSION CLINIC . . . 05MOSQUE/CHURCH . . . . . . 06 MOSQUE/CHURCH . . . . . . 06 MOSQUE/CHURCH . . . . . . 06PHARMACY . . . . . . . . . . 07 PHARMACY . . . . . . . . . . 07 PHARMACY . . . . . . . . . . 07PATENT MEDICINE PATENT MEDICINE PATENT MEDICINE

STORE . . . . . . . . . . . . 08 STORE . . . . . . . . . . . . 08 STORE . . . . . . . . . . . . 08SHOP/SUPERMARKET . 09 SHOP/SUPERMARKET . 09 SHOP/SUPERMARKET . 09OPEN MARKET . . . . . . . . 10 OPEN MARKET . . . . . . . . 10 OPEN MARKET . . . . . . . . 10HAWKER . . . . . . . . . . . . . . 11 HAWKER . . . . . . . . . . . . . . 11 HAWKER . . . . . . . . . . . . . . 11DON'T KNOW . . . . . . . . . . 96 DON'T KNOW . . . . . . . . . . 96 DON'T KNOW . . . . . . . . . . 96

OTHER 98 OTHER 98 OTHER 98(SPECIFY) (SPECIFY) (SPECIFY)

30 Did you buy the net or was it given BOUGHT . . . . . . . . . . . . . . 1 BOUGHT . . . . . . . . . . . . . . 1 BOUGHT . . . . . . . . . . . . . . 1to you free? FREE . . . . . . . . . . . . . . . . . . . 2 FREE . . . . . . . . . . . . . . . . . . . 2 FREE . . . . . . . . . . . . . . . . . . . 2

(SKIP TO 32) (SKIP TO 32) (SKIP TO 32) DON'T KNOW . . . . . . . . . . . . . . 8 DON'T KNOW . . . . . . . . . . . . . . 8 DON'T KNOW . . . . . . . . . . . . . . 8

NET #1 NET #2 NET #3

31 How much did you pay for the net? COST IN COST IN COST INIF DK, WRITE '99998'. NAIRA NAIRA NAIRA

32 OBSERVE OR ASK THE TYPE AND LONG-LASTING LONG-LASTING LONG-LASTINGBRAND OF MOSQUITO NET. INSECTICIDE TREATED NET (LLIN) INSECTICIDE TREATED NET (LLIN) INSECTICIDE TREATED NET (LLIN)

PERMANET . . . . . . . . 11 PERMANET . . . . . . . . 11 PERMANET . . . . . . . . 11OLYSET . . . . . . . . . . 12 OLYSET . . . . . . . . . . 12 OLYSET . . . . . . . . . . 12

IF BRAND IS UNKNOWN, AND YOU ICONLIFE . . . . . . . . . . 13 ICONLIFE . . . . . . . . . . 13 ICONLIFE . . . . . . . . . . 13CANNOT OBSERVE THE NET, SHOW DURANET . . . . . . . . 14 DURANET . . . . . . . . 14 DURANET . . . . . . . . 14PICTURES OF TYPICAL NET NETPROTECT . . . . . . 15 NETPROTECT . . . . . . 15 NETPROTECT . . . . . . 15TYPES/BRANDS TO RESPONDENT. BASF INTERCEPTOR . 16 BASF INTERCEPTOR . 16 BASF INTERCEPTOR . 16

OTHER/DK BRAND . 17 OTHER/DK BRAND . 17 OTHER/DK BRAND . 17(SKIP TO 36) (SKIP TO 36) (SKIP TO 36)

RETREATABLE NET . . . 21 RETREATABLE NET . . . 21 RETREATABLE NET . . . 21(SKIP TO 34) (SKIP TO 34) (SKIP TO 34)

UNTREATED NET . . . . . . 31 UNTREATED NET . . . . . . 31 UNTREATED NET . . . . . . 31(SKIP TO 34) (SKIP TO 34) (SKIP TO 34)

OTHER 96 OTHER 96 OTHER 96(SPECIFY) (SPECIFY) (SPECIFY)

DON'T KNOW . . . . . . . . 98 DON'T KNOW . . . . . . . . 98 DON'T KNOW . . . . . . . . 98

33 When you got the net, was it already YES . . . . . . . . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . . . . . . . . 1factory-treated with an insecticide to NO . . . . . . . . . . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . . . . . . . . . . 2kill or repel mosquitos? NOT SURE . . . . . . . . . . . . . . . . . 8 NOT SURE . . . . . . . . . . . . . . . . . 8 NOT SURE . . . . . . . . . . . . . . . . . 8

34 Since you got the mosquito net, was it YES . . . . . . . . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . . . . . . . . 1ever soaked or dipped in a liquid to kill NO . . . . . . . . . . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . . . . . . . . . . 2or repel mosquitos? (SKIP TO 36) (SKIP TO 36) (SKIP TO 36)

NOT SURE . . . . . . . . . . . . . . . . . 8 NOT SURE . . . . . . . . . . . . . . . . . 8 NOT SURE . . . . . . . . . . . . . . . . . 8

35 How many months ago was the net last MONTHS MONTHS MONTHSsoaked or dipped? AGO . . . . . . AGO . . . . . . AGO . . . . . .

IF LESS THAN ONE MONTH, RECORD MORE THAN 24 MORE THAN 24 MORE THAN 2400' MONTHS. IF LESS THAN 2 YEARS MONTHS AGO . . . . . . . . . . 95 MONTHS AGO . . . . . . . . . . 95 MONTHS AGO . . . . . . . . . . 95AGO, RECORD MONTHS AGO. IF '12 NOT SURE . . . . . . . . . . . . . . 98 NOT SURE . . . . . . . . . . . . . . 98 NOT SURE . . . . . . . . . . . . . . 98MONTHS AGO' OR '1 YEAR AGO,'PROBE FOR EXACT NUMBER OF MONTHS.

100 | Appendix E

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NET #1 NET #2 NET #3

36 Did anyone sleep under this mosquito YES . . . . . . . . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . . . . . . . . 1net last night? (SKIP TO 38) (SKIP TO 38) (SKIP TO 38)

NO . . . . . . . . . . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . . . . . . . . . . 2 NOT SURE . . . . . . . . . . . . . . . . . 8 NOT SURE . . . . . . . . . . . . . . . . . 8 NOT SURE . . . . . . . . . . . . . . . . . 8

(SKIP TO 39) (SKIP TO 39) (SKIP TO 39)

37 Why didn't anyone sleep under this NO MOSQUITOES . . . . . . . . 01 NO MOSQUITOES . . . . . . . . 01 NO MOSQUITOES . . . . . . . . 01net? NO MALARIA . . . . . . . . . . . . 02 NO MALARIA . . . . . . . . . . . . 02 NO MALARIA . . . . . . . . . . . . 02

TOO HOT . . . . . . . . . . . . . . 03 TOO HOT . . . . . . . . . . . . . . 03 TOO HOT . . . . . . . . . . . . . . 03DIFFICULT TO HANG . . . . . . 04 DIFFICULT TO HANG . . . . . . 04 DIFFICULT TO HANG . . . . . . 04DON'T LIKE SMELL . . . . . . . . 05 DON'T LIKE SMELL . . . . . . . . 05 DON'T LIKE SMELL . . . . . . . . 05FEEL 'CLOSED IN' FEEL 'CLOSED IN' FEEL 'CLOSED IN'

OR CONSTRAINED . . . . . . 06 OR CONSTRAINED . . . . . . 06 OR CONSTRAINED . . . . . . 06NET TOO OLD OR TORN . . . 07 NET TOO OLD OR TORN . . . 07 NET TOO OLD OR TORN . . . 07NET TOO DIRTY . . . . . . . . . . 08 NET TOO DIRTY . . . . . . . . . . 08 NET TOO DIRTY . . . . . . . . . . 08NET NOT AVAILABLE LAST NET NOT AVAILABLE LAST NET NOT AVAILABLE LAST NIGHT (WASHING) . . . . . . . . 09 NIGHT (WASHING) . . . . . . . . 09 NIGHT (WASHING) . . . . . . . . 09FEEL ITN CHEMICALS ARE FEEL ITN CHEMICALS ARE FEEL ITN CHEMICALS ARE

UNSAFE . . . . . . . . . . . . . . 10 UNSAFE . . . . . . . . . . . . . . 10 UNSAFE . . . . . . . . . . . . . . 10ITN PROVOKES COUGHING 11 ITN PROVOKES COUGHING 11 ITN PROVOKES COUGHING 11USUAL USER(S) DID NOT USUAL USER(S) DID NOT USUAL USER(S) DID NOT

SLEEP HERE LAST NIGHT 12 SLEEP HERE LAST NIGHT 12 SLEEP HERE LAST NIGHT 12NET NOT NEEDED LAST NET NOT NEEDED LAST NET NOT NEEDED LAST

NIGHT . . . . . . . . . . . . . . . . . 13 NIGHT . . . . . . . . . . . . . . . . . 13 NIGHT . . . . . . . . . . . . . . . . . 13OTHER 96 OTHER 96 OTHER 96

SPECIFY SPECIFY SPECIFYDON'T KNOW . . . . . . . . . . . . 98 DON'T KNOW . . . . . . . . . . . . 98 DON'T KNOW . . . . . . . . . . . . 98

(SKIP TO 39) (SKIP TO 39) (SKIP TO 39)

38 Who slept under this mosquito net last night? NAME NAME NAMERECORD THE PERSON'SLINE NUMBER FROM THE LINE LINE LINEHOUSEHOLD SCHEDULE. NUMBER NUMBER NUMBER

NAME NAME NAME

LINE LINE LINE NUMBER NUMBER NUMBER

NAME NAME NAME

LINE LINE LINE LINE LINE LINE NUMBER NUMBER NUMBER

NAME NAME NAME

LINE LINE LINE NUMBER NUMBER NUMBER

NAME NAME NAME

LINE LINE LINE NUMBER NUMBER NUMBER

39 GO BACK TO 28 FOR GO BACK TO 28 FOR GO BACK TO 28 IN THE FIRSTNEXT NET; OR, IF NO NEXT NET; OR, IF NO COLUMN OF NEW QUESTIONNAIRE;MORE NETS, GO TO 40. MORE NETS, GO TO 40. OR, IF NO MORE NETS, GO TO 40.

| 101Appendix E

Page 116: Nigeria Malaria Indicator Survey [MIS8]

ANEMIA AND MALARIA TESTING FOR CHILDREN AGE 6-59 MONTHS

40 CHECK COLUMN 10. WRITE THE LINE NUMBER AND NAME FOR ALL CHILDREN 0-5 YEARS IN Q. 41 IN ORDER BY LINE NUMBER.IF MORE THAN 6 CHILDREN, USE ADDITIONAL QUESTIONNAIRES. BE SURE TO FILL Qs. 50 AND 52. IF NO CHILDRENAGE 0-5 YEARS IN HOUSEHOLD, END HOUSEHOLD QUESTIONNAIRE AND START WOMEN'S QUESTIONNAIRE.

CHILD 1 CHILD 2 CHILD 3

41 LINE NUMBER FROM COLUMN 10 LINE LINE LINENUMBER . . . NUMBER . . . NUMBER . . .

NAME FROM COLUMN 2 NAME NAME NAME

42 IF MOTHER INTERVIEWED, COPYCHILD'S MONTH AND YEAR FROM DAY . . . . . . . . . . DAY . . . . . . . . . . DAY . . . . . . . . . . BIRTH HISTORY AND ASK DAY; IF MOTHER NOT INTERVIEWED, ASK: MONTH . . . . . MONTH . . . . . MONTH . . . . .

What is (NAME'S) birth date? YEAR YEAR YEAR

43 CHECK 42: YES . . . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . . . 1CHILD BORN IN JANUARY 2005 OR NO . . . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . . . 2LATER? (GO TO 42 FOR NEXT (GO TO 42 FOR NEXT (GO TO 42 FOR NEXT

CHILD OR, IF NO CHILD OR, IF NO CHILD OR, IF NO MORE, GO TO 56) MORE, GO TO 56) MORE, GO TO 56)

44 CHECK 42: 0-5 MONTHS . . . . . . . . 1 0-5 MONTHS . . . . . . . . 1 0-5 MONTHS . . . . . . . . 1IS CHILD AGE 0-5 MONTHS, I.E., WAS (GO TO 42 FOR NEXT (GO TO 42 FOR NEXT (GO TO 42 FOR NEXTCHILD BORN IN MONTH OF CHILD OR, IF NO CHILD OR, IF NO CHILD OR, IF NO INTERVIEW OR FIVE PREVIOUS MORE, GO TO 56) MORE, GO TO 56) MORE, GO TO 56)MONTHS? OLDER . . . . . . . . . . . . 2 OLDER . . . . . . . . . . . . 2 OLDER . . . . . . . . . . . . 2

45 LINE NUMBER OF PARENT OR LINE LINE LINEADULT RESPONSIBLE FOR CHILD. NUMBER . . . NUMBER . . . NUMBER . . . RECORD '00' IF NOT LISTED.

46 READ ANEMIA CONSENT STATEMENT CONSENT STATEMENT FOR ANEMIA TESTTO PARENT OR OTHER ADULT

RESPONSIBLE FOR CHILD. As part of this survey, we are asking that children all over the country take an anemia test. Anemia is a serious health problem that usually results from poor nutrition, infection, or disease. This survey will help the government to developprograms to prevent and treat anemia.

We request that all children born in 2005 or later participate inthe anemia testing part of this survey and give a few drops of

LAB SCIENTIST COMPLETE THIS SECTION

g p y g pblood from a finger. The equipment used in taking the blood is clean and completely safe. It has never been used before and will be thrown away after each test.

The blood will be tested for anemia immediately and the resultwill be told to you right away. The result will be kept confidential.

Do you have any questions about the anemia test?

You can say yes to the test or you can say no. It is up to you todecide.

Will you allow (NAME(S) OF CHILD(REN) to participate in the anemia test?

47 LAB SCIENTIST SIGNATURE

VERIFYING INTERVIEWER READANEMIA CONSENT TO THERESPONDENT. LAB SCIENTIST SIGNATURE LAB SCIENTIST SIGNATURE LAB SCIENTIST SIGNATURE

CIRCLE THE APPROPRIATE CODE. GRANTED TEST . . . . . 1 GRANTED TEST . . . . . 1 GRANTED TEST . . . . . 1GRANTED TEST, GRANTED TEST, GRANTED TEST,

REFUSED SIGNATURE REFUSED SIGNATURE REFUSED SIGNATURETHUMB PRINT . . . . . 2 THUMB PRINT . . . . . 2 THUMB PRINT . . . . . 2

REFUSED TEST . . . . . 3 REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

(SKIP TO 48) (SKIP TO 48) (SKIP TO 48)

47A RESPONDENT SIGNATURE/

THUMB PRINT

IF RESPONDENT GRANTS TEST,HAVE RESPONDENT SIGN OR PLACETHUMB PRINT ON THE LINE.

SIGNATURE/THUMB PRINT SIGNATURE/THUMB PRINT SIGNATURE/THUMB PRINT

102 | Appendix E

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CHILD 1 CHILD 2 CHILD 3

48 READ MALARIA CONSENT STATEMENT CONSENT STATEMENT FOR MALARIA TESTTO PARENT OR OTHER ADULT

RESPONSIBLE FOR CHILD. As part of this survey, we are asking that children all over the country take a test to see if they have malaria. Malaria is a serious illness caused by a parasite transmitted by a mosquito bite. This survey will help the government to develop programs to prevent malaria.

We request that all children born in 2005 or later participate in the malaria testing part of this survey and give a few drops of blood from a finger. The equipment used in taking the blood is clean and completely safe. It has never been used before and will be thrown away after each test. (We will use blood from the same finger prick made for the anemia test).

The blood will be tested for malaria immediately and the resultwill be told to you right away. The result will be kept confidential.

We will also take (NAME'S) temperature to see if s/he has afever.Do you have any questions about the malaria test?

Will you allow me to take (NAME'S) temperature?

You can say yes to the test or you can say no. It is up to you todecide.

Will you allow (NAME(S) OF CHILD(REN) to participate in themalaria test?

49 LAB SCIENTIST SIGNATURE

VERIFYING INTERVIEWER READMALARIA CONSENT TO THERESPONDENT. LAB SCIENTIST SIGNATURE LAB SCIENTIST SIGNATURE LAB SCIENTIST SIGNATURE

CIRCLE THE APPROPRIATE CODE. GRANTED TEST . . . . . 1 GRANTED TEST . . . . . 1 GRANTED TEST . . . . . 1GRANTED TEST, GRANTED TEST, GRANTED TEST,

REFUSED SIGNATURE REFUSED SIGNATURE REFUSED SIGNATURETHUMB PRINT . . . . . 2 THUMB PRINT . . . . . 2 THUMB PRINT . . . . . 2

REFUSED TEST . . . . . 3 REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

(SKIP TO 50) (SKIP TO 50) (SKIP TO 50)

49A RESPONDENT SIGNATURE/

THUMB PRINT

IF RESPONDENT GRANTS TEST,HAVE RESPONDENT SIGN OR PLACETHUMB PRINT ON THE LINE.

SIGNATURE/THUMB PRINT SIGNATURE/THUMB PRINT SIGNATURE/THUMB PRINT

CONDUCT TESTS FOR WHICH CONSENT IS GRANTED AND CONTINUE TO 50

50 RECORD RESULT CODE OF TESTED . . . . . . . . . . . . 1 TESTED . . . . . . . . . . . . 1 TESTED . . . . . . . . . . . . 1ANEMIA TEST. NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2

REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

(SKIP TO 52) (SKIP TO 52) (SKIP TO 52)

51 RECORD HEMOGLOBIN LEVEL HERE AND IN THE ANEMIA PAMPHLET. G/DL . G/DL . G/DL .

52 RECORD RESULT CODE OF TESTED . . . . . . . . . . . . 1 TESTED . . . . . . . . . . . . 1 TESTED . . . . . . . . . . . . 1MALARIA TEST NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2

REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

(SKIP TO 56) (SKIP TO 56) (SKIP TO 215)

53 BAR CODE LABEL PUT THE 1ST BAR CODE PUT THE 1ST BAR CODE PUT THE 1ST BAR CODELABEL HERE. LABEL HERE. LABEL HERE.

PUT THE 2ND BAR CODE PUT THE 2ND BAR CODE PUT THE 2ND BAR CODELABEL ON THE THICK LABEL ON THE THICK LABEL ON THE THICKBLOOD SMEAR SLIDE, THE BLOOD SMEAR SLIDE, THE BLOOD SMEAR SLIDE, THE3RD ON THE THIN BLOOD 3RD ON THE THIN BLOOD 3RD ON THE THIN BLOODSMEAR SLIDE, THE 4TH ON SMEAR SLIDE, THE 4TH ON SMEAR SLIDE, THE 4TH ONTHE PARACHECK, THE PARACHECK, THE PARACHECK,AND THE 5TH ON THE AND THE 5TH ON THE AND THE 5TH ON THETRANSMITTAL FORM. TRANSMITTAL FORM. TRANSMITTAL FORM.

BARCODE BARCODE BARCODE

| 103Appendix E

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CHILD 1 CHILD 2 CHILD 3

54 RESULT OF MALARIA TEST POSITIVE . . . . . . . . . . 1 POSITIVE . . . . . . . . . . 1 POSITIVE . . . . . . . . . . 1NEGATIVE . . . . . . . . . . 2 NEGATIVE . . . . . . . . . . 2 NEGATIVE . . . . . . . . . . 2

(SKIP TO 56) (SKIP TO 56) (SKIP TO 56)OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

54A CIRCLE CODE IN FRONT OF BOXES TO NO FEVER ( °C) NO FEVER ( °C) NO FEVER ( °C)RECORD WHETHER CHILD HAS AFEVER AND RECORD TEMPERATURE. 1 . 1 . 1 .

IF TEMPERATURE IS 37.5°C OR HIGHER, HAS FEVER ( °C) HAS FEVER ( °C) HAS FEVER ( °C)RECORD TEMPERATURE UNDERCODE 2, HAS FEVER'. 2 . 2 . 2 .

54B RESULT OF TEMPERATURE MEASURED . . . . . . . . 1 MEASURED . . . . . . . . 1 MEASURED . . . . . . . . 1MEASUREMENT NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2

REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

54C IF MALARIA TEST IS POSITIVE: CONSENT STATEMENT FOR MALARIA TREATMENT

READ INFORMATION FOR MALARIA The malaria test shows that (NAME) has malaria. We can give TREATMENT AND CONSENT STATE- you free medicine. The medicine is called ACT. ACT is very MENT TO PARENT OR OTHER ADULT effective and in a few days it should get rid of the malaria and RESPONSIBLE FOR THE CHILD. other symptoms.ASK ABOUT ANY TREATMENT THE

CHILD HAS ALREADY RECEIVED. You do not have to give (NAME) the medicine. This is up to you. Please tell me whether you accept the medicine or not.

BEFORE PROVIDING ACT, FIRST ASK:Is (NAME) already taking any other drugs or medicine totreat malaria?

IF YES, ASK TO SEE THE MEDICINE. IF CHILD IS ALREADY TAKING ACT, CHECK ON THE DOSE ALREADYAVAILABLE. BE CAREFUL NOT TO OVERTREAT THECHILD.

55 NURSE SIGNATURE

VERIFYING INTERVIEWER READTREATMENT CONSENT TO THERESPONDENT. NURSE SIGNATURE NURSE SIGNATURE NURSE SIGNATURE

NURSE COMPLETE THIS SECTION

CIRCLE THE APPROPRIATE CODE. ACCEPTED MEDICINE . 1 ACCEPTED MEDICINE . 1 ACCEPTED MEDICINE . 1ACCEPTED MEDICINE, ACCEPTED MEDICINE, ACCEPTED MEDICINE,

REFUSED SIGNATURE REFUSED SIGNATURE REFUSED SIGNATURETHUMB PRINT . . . . . 2 THUMB PRINT . . . . . 2 THUMB PRINT . . . . . 2

REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3ALREADY HAS ACT . 4 ALREADY HAS ACT . 4 ALREADY HAS ACT . 4NOT ELIGIBLE . . . . . . . . 5 NOT ELIGIBLE . . . . . . . . 5 NOT ELIGIBLE . . . . . . . . 5OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

(SKIP TO 56) (SKIP TO 56) (SKIP TO 56)

55A RESPONDENT SIGNATURE/

THUMB PRINT

IF RESPONDENT ACCEPTS MEDICINE,HAVE RESPONDENT SIGN OR PLACETHUMB PRINT ON THE LINE.

SIGNATURE/THUMB PRINT SIGNATURE/THUMB PRINT SIGNATURE/THUMB PRINT

55B RECORD CHILD'S WEIGHT IN KILOGRAMS KG. . . . . KG. . . . . KG. . . . .

55C RESULT OF WEIGHT MEASUREMENT MEASURED . . . . . . . . 1 MEASURED . . . . . . . . 1 MEASURED . . . . . . . . 1NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

56 GO BACK TO 42 IN NEXT COLUMN IN THIS QUESTIONNAIRE OR IN THE FIRSTCOLUMN OF THE ADDITIONAL QUESTIONNAIRE(S); IF NO MORE CHILDREN, END INTERVIEW.

TREATMENT FOR CHILDREN WITH POSITIVE MALARIA TESTS

TREATMENT WITH ACT

Weight (in kg) Age Artemether-Lumefantrine

Less than 5 kgs Nothing Nothing

5-14 kgs 6 months - 3 years 1 tablet twice a day for 3 days

15-25 kgs 4 - 8 years 2 tablets twice a day for 3 days

IF CHILD WEIGHS LESS THAN 5 KGS, DO NOT LEAVE DRUGS. TELL PARENT TO TAKE CHILD TO HEALTH FACILITY.

104 | Appendix E

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CHILD 4 CHILD 5 CHILD 6

41 LINE NUMBER FROM COLUMN 10 LINE LINE LINENUMBER . . . NUMBER . . . NUMBER . . .

NAME FROM COLUMN 2 NAME NAME NAME

42 IF MOTHER INTERVIEWED, COPYCHILD'S MONTH AND YEAR FROM DAY . . . . . . . . . . DAY . . . . . . . . . . DAY . . . . . . . . . . BIRTH HISTORY AND ASK DAY; IF MOTHER NOT INTERVIEWED, ASK: MONTH . . . . . MONTH . . . . . MONTH . . . . .

What is (NAME'S) birth date? YEAR YEAR YEAR

43 CHECK 42: YES . . . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . . . 1CHILD BORN IN JANUARY 2005 OR NO . . . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . . . 2LATER? (GO TO 42 FOR NEXT (GO TO 42 FOR NEXT (GO TO 42 FOR NEXT

CHILD OR, IF NO CHILD OR, IF NO CHILD OR, IF NO MORE, GO TO 56) MORE, GO TO 56) MORE, GO TO 56)

44 CHECK 42: 0-5 MONTHS . . . . . . . . 1 0-5 MONTHS . . . . . . . . 1 0-5 MONTHS . . . . . . . . 1IS CHILD AGE 0-5 MONTHS, I.E., WAS (GO TO 42 FOR NEXT (GO TO 42 FOR NEXT (GO TO 42 FOR NEXTCHILD BORN IN MONTH OF CHILD OR, IF NO CHILD OR, IF NO CHILD OR, IF NO INTERVIEW OR FIVE PREVIOUS MORE, GO TO 56) MORE, GO TO 56) MORE, GO TO 56)MONTHS? OLDER . . . . . . . . . . . . 2 OLDER . . . . . . . . . . . . 2 OLDER . . . . . . . . . . . . 2

45 LINE NUMBER OF PARENT OR LINE LINE LINEADULT RESPONSIBLE FOR CHILD. NUMBER . . . NUMBER . . . NUMBER . . . RECORD '00' IF NOT LISTED.

46 READ ANEMIA CONSENT STATEMENT CONSENT STATEMENT FOR ANEMIA TESTTO PARENT OR OTHER ADULT

RESPONSIBLE FOR CHILD. As part of this survey, we are asking that children all over the country take an anemia test. Anemia is a serious health problem that usually results from poor nutrition, infection, or disease. This survey will help the government to developprograms to prevent and treat anemia.

We request that all children born in 2005 or later participate inthe anemia testing part of this survey and give a few drops of blood from a finger. The equipment used in taking the blood is clean and completely safe. It has never been used before and will be thrown away after each test.

LAB SCIENTIST COMPLETE THIS SECTION

The blood will be tested for anemia immediately and the resultwill be told to you right away. The result will be kept confidential.

Do you have any questions about the anemia test?

You can say yes to the test or you can say no. It is up to you todecide.

Will you allow (NAME(S) OF CHILD(REN) to participate in the anemia test?

47 LAB SCIENTIST SIGNATURE

VERIFYING INTERVIEWER READANEMIA CONSENT TO THERESPONDENT. LAB SCIENTIST SIGNATURE LAB SCIENTIST SIGNATURE LAB SCIENTIST SIGNATURE

CIRCLE THE APPROPRIATE CODE. GRANTED TEST . . . . . 1 GRANTED TEST . . . . . 1 GRANTED TEST . . . . . 1GRANTED TEST, GRANTED TEST, GRANTED TEST,

REFUSED SIGNATURE REFUSED SIGNATURE REFUSED SIGNATURETHUMB PRINT . . . . . 2 THUMB PRINT . . . . . 2 THUMB PRINT . . . . . 2

REFUSED TEST . . . . . 3 REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

(SKIP TO 48) (SKIP TO 48) (SKIP TO 48)

47A RESPONDENT SIGNATURE/

THUMB PRINT

IF RESPONDENT GRANTS TEST,HAVE RESPONDENT SIGN OR PLACETHUMB PRINT ON THE LINE.

SIGNATURE/THUMB PRINT SIGNATURE/THUMB PRINT SIGNATURE/THUMB PRINT

| 105Appendix E

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CHILD 4 CHILD 5 CHILD 6

48 READ MALARIA CONSENT STATEMENT CONSENT STATEMENT FOR MALARIA TESTTO PARENT OR OTHER ADULT

RESPONSIBLE FOR CHILD. As part of this survey, we are asking that children all over the country take a test to see if they have malaria. Malaria is a serious illness caused by a parasite transmitted by a mosquito bite. This survey will help the government to develop programs to prevent malaria.

We request that all children born in 2005 or later participate in the malaria testing part of this survey and give a few drops of blood from a finger. The equipment used in taking the blood is clean and completely safe. It has never been used before and will be thrown away after each test. We will use blood from the same finger prick made for the anemia test.

The blood will be tested for malaria immediately and the resultwill be told to you right away. The result will be kept confidential.We will also take (NAME'S) temperature to see if s/he has afever.

Do you have any questions about the malaria test?

Will you allow me to take (NAME'S) temperature?

You can say yes to the test or you can say no. It is up to you todecide.

Will you allow (NAME(S) OF CHILD(REN) to participate in themalaria test?

49 LAB SCIENTIST SIGNATURE

VERIFYING INTERVIEWER READMALARIA CONSENT TO THERESPONDENT. LAB SCIENTIST SIGNATURE LAB SCIENTIST SIGNATURE LAB SCIENTIST SIGNATURE

CIRCLE THE APPROPRIATE CODE. GRANTED TEST . . . . . 1 GRANTED TEST . . . . . 1 GRANTED TEST . . . . . 1GRANTED TEST, GRANTED TEST, GRANTED TEST,

REFUSED SIGNATURE REFUSED SIGNATURE REFUSED SIGNATURETHUMB PRINT . . . . . 2 THUMB PRINT . . . . . 2 THUMB PRINT . . . . . 2

REFUSED TEST . . . . . 3 REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

(SKIP TO 50) (SKIP TO 50) (SKIP TO 50)

49A RESPONDENT SIGNATURE/

THUMB PRINT

IF RESPONDENT GRANTS TEST,HAVE RESPONDENT SIGN OR PLACETHUMB PRINT ON THE LINE.

SIGNATURE/THUMB PRINT SIGNATURE/THUMB PRINT SIGNATURE/THUMB PRINT

CONDUCT TESTS FOR WHICH CONSENT IS GRANTED AND CONTINUE TO 50

50 RECORD RESULT CODE OF TESTED . . . . . . . . . . . . 1 TESTED . . . . . . . . . . . . 1 TESTED . . . . . . . . . . . . 1ANEMIA TEST. NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2

REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

(SKIP TO 52) (SKIP TO 52) (SKIP TO 52)

51 RECORD HEMOGLOBIN LEVEL HERE AND IN THE ANEMIA PAMPHLET. G/DL . G/DL . G/DL .

52 RECORD RESULT CODE OF TESTED . . . . . . . . . . . . 1 TESTED . . . . . . . . . . . . 1 TESTED . . . . . . . . . . . . 1MALARIA TEST NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2

REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

(SKIP TO 56) (SKIP TO 56) (SKIP TO 215)

53 BAR CODE LABEL PUT THE 1ST BAR CODE PUT THE 1ST BAR CODE PUT THE 1ST BAR CODELABEL HERE. LABEL HERE. LABEL HERE.

PUT THE 2ND BAR CODE PUT THE 2ND BAR CODE PUT THE 2ND BAR CODELABEL ON THE THICK LABEL ON THE THICK LABEL ON THE THICKBLOOD SMEAR SLIDE, THE BLOOD SMEAR SLIDE, THE BLOOD SMEAR SLIDE, THE3RD ON THE THIN BLOOD 3RD ON THE THIN BLOOD 3RD ON THE THIN BLOODSMEAR SLIDE, THE 4TH ON SMEAR SLIDE, THE 4TH ON SMEAR SLIDE, THE 4TH ONTHE PARACHECK, THE PARACHECK, THE PARACHECK,AND THE 5TH ON THE AND THE 5TH ON THE AND THE 5TH ON THETRANSMITTAL FORM. TRANSMITTAL FORM. TRANSMITTAL FORM.

BARCODE BARCODE BARCODE

106 | Appendix E

Page 121: Nigeria Malaria Indicator Survey [MIS8]

CHILD 4 CHILD 5 CHILD 6

54 RESULT OF MALARIA TEST POSITIVE . . . . . . . . . . . . 1 POSITIVE . . . . . . . . . . 1 POSITIVE . . . . . . . . . . 1NEGATIVE . . . . . . . . . . 2 NEGATIVE . . . . . . . . . . 2 NEGATIVE . . . . . . . . . . 2

(SKIP TO 56) (SKIP TO 56) (SKIP TO 56)OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

54A CIRCLE CODE IN FRONT OF BOXES TO NO FEVER ( °C) NO FEVER ( °C) NO FEVER ( °C)RECORD WHETHER CHILD HAS AFEVER AND RECORD TEMPERATURE. 1 . 1 . 1 .

IF TEMPERATURE IS 37.5°C OR HIGHER, HAS FEVER ( °C) HAS FEVER ( °C) HAS FEVER ( °C)RECORD TEMPERATURE UNDERCODE 2, HAS FEVER'. 2 . 2 . 2 .

54B RESULT OF TEMPERATURE MEASURED . . . . . . . . 1 MEASURED . . . . . . . . 1 MEASURED . . . . . . . . 1MEASUREMENT NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2

REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

54C IF MALARIA TEST IS POSITIVE: CONSENT STATEMENT FOR MALARIA TREATMENT

READ INFORMATION FOR MALARIA The malaria test shows that (NAME) has malaria. We can give TREATMENT AND CONSENT STATE- you free medicine. The medicine is called ACT. ACT is very MENT TO PARENT OR OTHER ADULT effective and in a few days it should get rid of the malaria and RESPONSIBLE FOR THE CHILD. other symptoms.ASK ABOUT ANY TREATMENT THE

CHILD HAS ALREADY RECEIVED. You do not have to give (NAME) the medicine. This is up to you. Please tell me whether you accept the medicine or not.

BEFORE PROVIDING ACT, FIRST ASK:Is (NAME) already taking any other drugs or medicine totreat malaria?

IF YES, ASK TO SEE THE MEDICINE. IF CHILD IS ALREADY TAKING ACT, CHECK ON THE DOSE ALREADYAVAILABLE. BE CAREFUL NOT TO OVERTREAT THECHILD.

55 NURSE SIGNATURE

VERIFYING INTERVIEWER READTREATMENT CONSENT TO THERESPONDENT. NURSE SIGNATURE NURSE SIGNATURE NURSE SIGNATURE

NURSE COMPLETE THIS SECTION

CIRCLE THE APPROPRIATE CODE. ACCEPTED MEDICINE . 1 ACCEPTED MEDICINE . 1 ACCEPTED MEDICINE . 1ACCEPTED MEDICINE ACCEPTED MEDICINE ACCEPTED MEDICINE

REFUSED SIGNATURE REFUSED SIGNATURE REFUSED SIGNATURETHUMB PRINT . . . . . 2 THUMB PRINT . . . . . 2 THUMB PRINT . . . . . 2

REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3ALREADY HAS ACT . 4 ALREADY HAS ACT . 4 ALREADY HAS ACT . 4NOT ELIGIBLE . . . . . . . . 5 NOT ELIGIBLE . . . . . . . . 5 NOT ELIGIBLE . . . . . . . . 5OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

(SKIP TO 56) (SKIP TO 56) (SKIP TO 56)

55A RESPONDENT SIGNATURE/

THUMB PRINT

IF RESPONDENT ACCEPTS MEDICINE,HAVE RESPONDENT SIGN OR PLACETHUMB PRINT ON THE LINE.

SIGNATURE/THUMB PRINT SIGNATURE/THUMB PRINT SIGNATURE/THUMB PRINT

55B RECORD CHILD'S WEIGHT IN KILOGRAMS KG. . . . . KG. . . . . KG. . . . .

55C RESULT OF WEIGHT MEASUREMENT MEASURED . . . . . . . . 1 MEASURED . . . . . . . . 1 MEASURED . . . . . . . . 1NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2 NOT PRESENT . . . . . 2REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3 REFUSED . . . . . . . . . . 3OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6 OTHER . . . . . . . . . . . . 6

56 GO BACK TO 42 IN NEXT COLUMN IN THIS QUESTIONNAIRE OR IN THE FIRSTCOLUMN OF THE ADDITIONAL QUESTIONNAIRE(S); IF NO MORE CHILDREN, END INTERVIEW.

TREATMENT FOR CHILDREN WITH POSITIVE MALARIA TESTS

TREATMENT WITH ACT

Weight (in kg) Age Artemether-Lumefantrine

Less than 5 kgs Nothing Nothing

5-14 kgs 6 months - 3 years 1 tablet twice a day for 3 days

15-25 kgs 4 - 8 years 2 tablets twice a day for 3 days

IF CHILD WEIGHS LESS THAN 5 KGS, DO NOT LEAVE DRUGS. TELL PARENT TO TAKE CHILD TO HEALTH FACILITY.

| 107Appendix E

Page 122: Nigeria Malaria Indicator Survey [MIS8]
Page 123: Nigeria Malaria Indicator Survey [MIS8]

29 September 2010

NIGERIA MALARIA INDICATOR SURVEYWOMAN'S QUESTIONNAIRE

NATIONAL POPULATION COMMISSION National Health Research Ethics CommitteeNATIONAL MALARIA CONTROL PROGRAM Assigned Number NHREC/01/01/2007 - 10/09/2010b

IDENTIFICATION

STATE . . . . . . . . . . . . . . . . . . . . . . . . . . .

LOCAL GOVT. AREA . . . . . . . . . . . . . . . . . . . . . . . . . . .

LOCALITY

ENUMERATION AREA . . . . . . . . . . . . . . . . . . . . . . .

URBAN/RURAL (URBAN=1, RURAL=2) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

CLUSTER NUMBER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

BUILDING NUMBER . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

HOUSEHOLD HEAD NAME/NUMBER

NAME AND LINE NUMBER OF WOMAN

INTERVIEWER VISITS

FINAL VISIT

DATE DAY

MONTH

YEAR

INTERVIEWER'S NAME INT. NUMBER

RESULT* RESULT

NEXT VISIT: DATETOTAL NUMBER

TIME OF VISITS

*RESULT CODES:1 COMPLETED 4 REFUSED2 NOT AT HOME 5 PARTLY COMPLETED 7 OTHER3 POSTPONED 6 INCAPACITATED (SPECIFY)

LANGUAGE OF QUESTIONNAIRE** ENGLISH

LANGUAGE OF INTERVIEW** . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

NATIVE LANGUAGE OF RESPONDENT** . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

TRANSLATOR USED (1=NOT AT ALL; 2=SOMETIME; 3=ALL THE TIME) . . . . .

**LANGUAGE CODES: 1 HAUSA 3 IGBO 6 OTHER2 YORUBA 4 ENGLISH (SPECIFY)

SUPERVISOR/EDITOR

NAME

DATE

C O N F I D E N T I A L

1 2 3

2 0 1 0

4

OFFICE KEYED BYEDITOR

| 109Appendix E

Page 124: Nigeria Malaria Indicator Survey [MIS8]

SECTION 1. RESPONDENT'S BACKGROUND

INTRODUCTION AND CONSENT

INFORMED CONSENT

Greetings. My name is _______________________________________ and I am working with National PopulationCommission. We are conducting a national survey about malaria all over Nigeria. This study has been reviewed andgranted approval by the National Health Research Ethics Committee, assigned number NHREC/01/01/2007, for thestudy period of September 2010 to September 2011. Your household was selected for the survey. We wouldvery much appreciate your participitation in this survey. This information you provide will help the government to planhealth services. The survey usually takes between 10 and 20 minutes to complete. Whatever information you providewill be kept strictly confidential and will not be shown to other persons. Should you have any questions, feel free tocall any of the following contact person(s):

2010 NMIS Contact Person, NPC: Project Director; Email: [email protected]; Phone: 08033708114NMCP Contact Person: National Coordinator; Email: [email protected]; Phone: 08037860784NHREC Contact Person(s): Secretary, NHREC; Email: [email protected]; Phone: 08033143791

Desk Officer, NHREC; Email: [email protected]; Phone: 08065479926

Participation in this survey is voluntary, and if we should come to any question you don't want to answer, just let meknow and I will go on to the next question; or you can stop the interview at any time. However, we hope that you will participate in this survey since your views are important.

At this time, do you want to ask me anything about the survey? May I begin the interview now?

Signature of interviewer: Date:

Signature/thumb print of respondent: Date:

RESPONDENT AGREES TO BE INTERVIEW. . . . . 1 RESPONDENT DOES NOT AGREE TO BE INTERVIE. . . 2 END

NO. QUESTIONS AND FILTERS CODING CATEGORIES SKIP

101 RECORD THE TIME.HOUR . . . . . . . . . . . . . . . . . . . .

MINUTES . . . . . . . . . . . . . . . . .

102 In what month and year were you born?MONTH . . . . . . . . . . . . . . . . . .

DON'T KNOW MONTH . . . . . . . . . . . . 98

YEAR . . . . . . . . . . . .

DON'T KNOW YEAR . . . . . . . . . . . . 9998

103 How old were you at your last birthday?AGE IN COMPLETED YEARS

COMPARE AND CORRECT 102 AND/OR 103 IF INCONSISTENT.

104 Have you ever attended school? YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 108

105 What is the highest level of school you attended: PRIMARY . . . . . . . . . . . . . . . . . . . . . . 1primary, secondary, or higher? SECONDARY . . . . . . . . . . . . . . . . . . . . 2

HIGHER . . . . . . . . . . . . . . . . . . . . . . . . 3

106 What is the highest (class/form/year) you completed at thatlevel? CLASS/FORM/YEAR . . . . . . . .

IF COMPLETED LESSD THAN ONE YEAR AT THAT LEVEL,RECORD '00'.

107 CHECK 105:

PRIMARY SECONDARYOR HIGHER 109

110 | Appendix E

Page 125: Nigeria Malaria Indicator Survey [MIS8]

NO. QUESTIONS AND FILTERS CODING CATEGORIES SKIP

108 Now I would like you to read this sentence to me. CANNOT READ AT ALL . . . . . . . . . . . . 1ABLE TO READ ONLY PARTS OF

SHOW SENTENCES ON CARD TO RESPONDENT. SENTENCE . . . . . . . . . . . . . . . . . . . . 2ABLE TO READ WHOLE SENTENCE. . 3

IF RESPONDENT CANNOT READ WHOLE SENTENCE, PROBE: NO CARD WITH REQUIREDCan you read any part of the sentence to me? LANGUAGE 4

(SPECIFY LANGUAGE)BLIND/VISUALLY IMPAIRED . . . . . . . 5

109 What is your religion? CHRISTIANITY . . . . . . . . . . . . . . . . . . . . 1ISLAM . . . . . . . . . . . . . . . . . . . . . . . . 2TRADITIONAL RELIGION . . . . . . . . . . 3NO RELIGION . . . . . . . . . . . . . . . . . . . . 4

OTHER 6 (SPECIFY)

110 What is your ethnic group?

| 111Appendix E

Page 126: Nigeria Malaria Indicator Survey [MIS8]

SECTION 2. REPRODUCTION

NO. QUESTIONS AND FILTERS CODING CATEGORIES SKIP

201 Now I would like to ask about all the births you have had during YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1your life. Have you ever born a child? NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 206

202 Do you have any sons or daughters to whom you have given YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1birth who are now living with you? NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 204

203 How many sons live with you? SONS AT HOME . . . . . . . . . . . .

And how many daughters live with you? DAUGHTERS AT HOME . . . . .

IF NONE, RECORD '00'.

204 Do you have any children you born who are YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1alive but do not live with you? NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 206

205 How many sons are alive but do not live with you? SONS ELSEWHERE . . . . . . . .

And how many daughters are alive but do not live with you? DAUGHTERS ELSEWHERE .

IF NONE, RECORD '00'.

206 Have you ever born a child who was born alive and later died?

YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1IF NO, PROBE: Any baby who cried or showed signs of life but NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 208

did not survive?

207 How many boys have died? BOYS DEAD . . . . . . . . . . . . . .

And how many girls have died? GIRLS DEAD . . . . . . . . . . . . . .

IF NONE, RECORD '00'.

208 SUM ANSWERS TO 203, 205, AND 207, AND ENTER TOTAL.IF NONE, RECORD '00'. TOTAL . . . . . . . . . . . . . . . . . . . .

209 CHECK 208:

Just to make sure that I have this right: you have had in total ____ children in your life. Is that correct?

PROBE ANDYES NO CORRECT

201-208 ASNECESSARY.

210 CHECK 208:

ONE OR MORE NO BIRTHSBIRTHS Q.208 IS '00' 224

112 | Appendix E

Page 127: Nigeria Malaria Indicator Survey [MIS8]

211 Now I would like to record the names of all your births, whether still alive or not, starting with the first one you had.

RECORD NAMES OF ALL THE BIRTHS IN 212. RECORD TWINS AND TRIPLETS ON SEPARATE LINES.(IF THERE ARE MORE THAN 12 BIRTHS, USE AN ADDITIONAL QUESTIONNAIRE, STARTING WITH THE SECOND ROW).

IF LIVING: IF LIVING: IF LIVING: IF DEAD:

What name Were Is In what month Is How old is Is (NAME) RECORD How old was (NAME) Were therewas given to any of (NAME) and year was (NAME) (NAME)? living with HOUSE- when he/she died? any otheryour these a boy or (NAME) born? still you? HOLD LINE live births(first/next) births a girl? living? NUMBER OF IF '1 YR', PROBE: betweenbaby? twins? PROBE: RECORD CHILD How many months old (NAME)

What is his/her AGE IN (RECORD '00' was (NAME)? and (NAMEbirthday? COM- IF CHILD NOT RECORD DAYS IF OF BIRTH

PLETED LISTED IN LESS THAN 1 ONYEARS. HOUSE- MONTH; MONTHS IF PREVIOUS

HOLD). LESS THAN TWO LINE)?YEARS; OR YEARS. including

any childrenwho diedafter birth?

01 MONTH LINE NUMBER DAYS . . . 1SING 1 BOY 1 YES . . 1 YES . . . 1

YEAR MONTHS 2MULT 2 GIRL 2 NO . . . 2 NO . . . . 2

(NEXT BIRTH) YEARS . . 3220

02 MONTH LINE NUMBER DAYS . . . 1 YES . . . . 1SING 1 BOY 1 YES . . 1 YES . . . 1 ADD

YEAR MONTHS 2 BIRTHMULT 2 GIRL 2 NO . . . 2 NO . . . . 2 NO . . . . . 2

(GO TO 221) YEARS . . 3 NEXT220 BIRTH

03 MONTH LINE NUMBER DAYS . . . 1 YES . . . . 1SING 1 BOY 1 YES 1 YES 1 ADD

216 217

YEARS

AGE INYEARS

AGE IN

AGE IN

YEARS

218 219 220 221

(NAME)

212 213 214 215

SING 1 BOY 1 YES . . 1 YES . . . 1 ADDYEAR MONTHS 2 BIRTH

MULT 2 GIRL 2 NO . . . 2 NO . . . . 2 NO . . . . . 2(GO TO 221) YEARS . . 3 NEXT

220 BIRTH

04 MONTH LINE NUMBER DAYS . . . 1 YES . . . . 1SING 1 BOY 1 YES . . 1 YES . . . 1 ADD

YEAR MONTHS 2 BIRTHMULT 2 GIRL 2 NO . . . 2 NO . . . . 2 NO . . . . . 2

(GO TO 221) YEARS . . 3 NEXT220 BIRTH

05 MONTH LINE NUMBER DAYS . . . 1 YES . . . . 1SING 1 BOY 1 YES . . 1 YES . . . 1 ADD

YEAR MONTHS 2 BIRTHMULT 2 GIRL 2 NO . . . 2 NO . . . . 2 NO . . . . . 2

(GO TO 221) YEARS . . 3 NEXT220 BIRTH

06 MONTH LINE NUMBER DAYS . . . 1 YES . . . . 1SING 1 BOY 1 YES . . 1 YES . . . 1 ADD

YEAR MONTHS 2 BIRTHMULT 2 GIRL 2 NO . . . 2 NO . . . . 2 NO . . . . . 2

(GO TO 221) YEARS . . 3 NEXT220 BIRTH

07 MONTH LINE NUMBER DAYS . . . 1 YES . . . . 1SING 1 BOY 1 YES . . 1 YES . . . 1 ADD

YEAR MONTHS 2 BIRTHMULT 2 GIRL 2 NO . . . 2 NO . . . . 2 NO . . . . . 2

(GO TO 221) YEARS . . 3 NEXT220 BIRTH

YEARS

AGE INYEARS

AGE IN

YEARS

AGE INYEARS

AGE INYEARS

| 113Appendix E

Page 128: Nigeria Malaria Indicator Survey [MIS8]

IF LIVING: IF LIVING: IF LIVING: IF DEAD:

What name Were Is In what month Is How old was Is (NAME) RECORD How old was (NAME) Were therewas given to any of (NAME) and year was (NAME) (NAME) at living with HOUSE- when he/she died? any otheryour next these a boy or (NAME) born? still his/her last you? HOLD LINE live birthsbaby? births a girl? alive? birthday? NUMBER OF IF '1 YR', PROBE: between

twins? PROBE: CHILD How many months old (NAME)What is his/her RECORD (RECORD '00' was (NAME)? and (NAMEbirthday? AGE IN IF CHILD NOT RECORD DAYS IF OF BIRTH

COM- LISTED IN LESS THAN 1 ONPLETED HOUSE- MONTH; MONTHS IF PREVIOUSYEARS. HOLD). LESS THAN TWO LINE)?

YEARS; OR YEARS.

08 MONTH LINE NUMBER DAYS . . . 1 YES . . . . 1SING 1 BOY 1 YES . . 1 YES . . . 1 ADD

YEAR MONTHS 2 BIRTHMULT 2 GIRL 2 NO . . . 2 NO . . . . 2 NO . . . . . 2

(GO TO 221) YEARS . . 3 NEXT220 BIRTH

09 MONTH LINE NUMBER DAYS . . . 1 YES . . . . 1SING 1 BOY 1 YES . . 1 YES . . . 1 ADD

YEAR MONTHS 2 BIRTHMULT 2 GIRL 2 NO . . . 2 NO . . . . 2 NO . . . . . 2

(GO TO 221) YEARS . . 3 NEXT220 BIRTH

10 MONTH LINE NUMBER DAYS . . . 1 YES . . . . 1SING 1 BOY 1 YES . . 1 YES . . . 1 ADD

YEAR MONTHS 2 BIRTHMULT 2 GIRL 2 NO . . . 2 NO . . . . 2 NO . . . . . 2

(GO TO 221) YEARS . . 3 NEXT220 BIRTH

11 MONTH LINE NUMBER DAYS 1 YES 1

YEARS

AGE INYEARS

AGE INYEARS

AGE IN

218 219 220 221

(NAME)

AGE IN

212 213 214 215 216 217

11 MONTH LINE NUMBER DAYS . . . 1 YES . . . . 1SING 1 BOY 1 YES . . 1 YES . . . 1 ADD

YEAR MONTHS 2 BIRTHMULT 2 GIRL 2 NO . . . 2 NO . . . . 2 NO . . . . . 2

(GO TO 221) YEARS . . 3 NEXT220 BIRTH

12 MONTH LINE NUMBER DAYS . . . 1 YES . . . . 1SING 1 BOY 1 YES . . 1 YES . . . 1 ADD

YEAR MONTHS 2 BIRTHMULT 2 GIRL 2 NO . . . 2 NO . . . . 2 NO . . . . . 2

(GO TO 221) YEARS . . 3 NEXT220 BIRTH

222 Have you had any live births since the birth of (NAME OF YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1MOST RECENT BIRTH)? NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2

IF YES, RECORD BIRTHS(S) IN BIRTH TABLE.

223 COMPARE 208 WITH NUMBER OF BIRTHS IN HISTORY ABOVE AND MARK:

NUMBERS NUMBERS AREARE SAME DIFFERENT (PROBE AND RECONCILE)

224 CHECK 215 AND ENTER THE NUMBER OF BIRTHS IN 2005 OR LATER.IF NONE, RECORD '0' AND CONTINUE TO Q. 225.

YEARS

AGE INYEARS

AGE IN

114 | Appendix E

Page 129: Nigeria Malaria Indicator Survey [MIS8]

NO. QUESTIONS AND FILTERS CODING CATEGORIES SKIP

225 Are you pregnant now? YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2UNSURE . . . . . . . . . . . . . . . . . . . . . . . . . 8 227

226 How many months pregnant are you?MONTHS . . . . . . . . . . . . . . . . . .

RECORD NUMBER OF COMPLETED MONTHS.

226A Have you seen anyone for antenatal care? YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2

(SKIP TO 226C)

226B Whom did you see? HEALTH PERSONNELDOCTOR . . . . . . . . . . . . . . . . . . A

Anyone else? NURSE/MIDWIFE BAUXILIARY MIDWIFE . . . . . . . . . . C

PROBE TO IDENTIFY EACH TYPE OF PERSON AND COMMUNITY HEALTH RECORD ALL MENTIONED. EXTENSION WORKER (CHEW) . D

OTHER PERSONTRADITIONAL BIRTH

ATTENDANT . . . . . . . . . . . . . . ECOMMUNITY ORIENTED

RESOURCE PERSON . . . . . . . . F

OTHER . . . . . . . . . . X(SPECIFY)

NO ONE . . . . . . . . . . . . . . . . . . . . . . Y

226C During this current pregnancy, did you take any drugs in order YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1to prevent you from getting malaria? NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2

DON'T KNOW . . . . . . . . . . . . . . . . . . . . 8 227

226D What drugs did you take to prevent malaria? SP/FANSIDAR . . . . . . . . . . . . . . . . . . . . ACHLOROQUINE . . . . . . . . . . . . . . . . . . B

RECORD ALL MENTIONED.OTHER X

IF TYPE OF DRUG IS NOT DETERMINED, SHOW TYPICAL (SPECIFY)ANTIMALARIAL DRUGS TO RESPONDENT.

DON'T KNOW . . . . . . . . . . . . . . . . . . Z

226E CHECK 226D: SP/FANSIDAR TAKEN FOR MALARIA PREVENTION

CODE 'A' CODE 'A'CIRCLED NOT CIRCLED 227

226F How many months pregnant were you when you took yourfirst dose of SP/Fansidar? MONTHS PREGNANT . . . . . . . .

DON'T KNOW . . . . . . . . . . . . . . . . . . . . 98

226G How many times did you take SP/Fansidar) during thispregnancy? TIMES . . . . . . . . . . . . . . . . . . . .

227 CHECK 224:ONE OR MORE NO BIRTHS

BIRTHS IN 2005IN 2005 OR LATER 401

OR LATER

| 115Appendix E

Page 130: Nigeria Malaria Indicator Survey [MIS8]

SECTION 3A. PREGNANCY AND INTERMITTENT PREVENTIVE TREATMENT

301 CHECK 212 AND 215: ENTER IN 302 THE NAME AND LINE NUMBER OF THE MOST RECENT BIRTH SINCE 2005EVEN IF THE CHILD IS NO LONGER ALIVE.

Now I would like to ask you some questions about your last pregnancy that ended in a live birth in the last 5 years.

302 NAME AND LINE NUMBER FROM 212. NAME OF LAST BIRTH

LINE NUMBER . . . . . . . . . . . . . . . .

LIVING DEAD

303 When you were pregnant with (NAME) did you see anyone YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1for antenatal care? NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2

(SKIP TO 305)

304 Whom did you see? HEALTH PERSONNELDOCTOR . . . . . . . . . . . . . . . . . . A

Anyone else? NURSE/MIDWIFE BAUXILIARY MIDWIFE . . . . . . . . . . C

PROBE TO IDENTIFY EACH TYPE OF PERSON AND COMMUNITY HEALTH RECORD ALL MENTIONED. EXTENSION WORKER (CHEW) . D

OTHER PERSONTRADITIONAL BIRTH

ATTENDANT . . . . . . . . . . . . . . ECOMMUNITY ORIENTED

RESOURCE PERSON . . . . . . . . F

OTHER . . . . . . . . . . X(SPECIFY)( )

NO ONE . . . . . . . . . . . . . . . . . . . . . . Y

305 During this pregnancy, did you take any drugs in order YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1to prevent you from getting malaria? NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2

DON'T KNOW . . . . . . . . . . . . . . . . . . . . 8 312

306 What drugs did you take to prevent malaria? SP/FANSIDAR . . . . . . . . . . . . . . . . . . . . ACHLOROQUINE . . . . . . . . . . . . . . . . . . B

RECORD ALL MENTIONED.OTHER X

IF TYPE OF DRUG IS NOT DETERMINED, SHOW TYPICAL (SPECIFY)ANTIMALARIAL DRUGS TO RESPONDENT.

DON'T KNOW . . . . . . . . . . . . . . . . . . Z

307 CHECK 306: SP/FANSIDAR TAKEN FOR MALARIA PREVENTION

CODE 'A' CODE 'A'CIRCLED NOT CIRCLED 312

308 How many times did you take SP/Fansidar) during thispregnancy? TIMES . . . . . . . . . . . . . . . . . . . .

116 | Appendix E

Page 131: Nigeria Malaria Indicator Survey [MIS8]

309 CHECK 304: ANTENATAL CARE FROM HEALTH PROFESSIONAL RECEIVED DURING THIS PREGNANCY?

CODE 'A', 'B', 'C',OR 'D' CIRCLED OTHER 312

310 Did you get the (SP/Fansidar) during an antenatal care visit? YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2

311 Did you receive a mosquito net during an antenatal care visit? YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2

312 CHECK 215 AND 216:

ONE OR MORE NO LIVINGLIVING CHILDREN CHILDREN BORN 401

BORN IN 2005 OR LATER IN 2005 OR LATER

| 117Appendix E

Page 132: Nigeria Malaria Indicator Survey [MIS8]

SECTION 3B. FEVER IN CHILDREN

313 ENTER IN THE TABLE THE LINE NUMBER AND NAME OF EACH LIVING CHILD BORN IN 2005 OR LATER.IF THERE ARE MORE THAN 3 LIVING CHILDREN BORN IN 2005 OR LATER, USE ADDITIONAL QUESTIONNAIRES.

Now I would like to ask you some questions about the health of your children less than 5 years old. We will talk about each one separately.

314 LAST BIRTH NEXT-TO-LAST BIRTH SECOND-FROM-LAST BIRTHNAME AND LINE NUMBER LINE LINE LINE FROM 212 NUMBER . . . NUMBER . . . NUMBER . . .

NAME NAME NAME

315 Has (NAME) been ill with a fever YES . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . 1at any time in the last 2 weeks? NO . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . 2

(GO BACK TO 314 (GO BACK TO 314 (GO BACK TO 314IN NEXT COLUMN; IN NEXT COLUMN; IN NEXT COLUMN;

OR, IF NO MORE OR, IF NO MORE OR, IF NO MOREBIRTHS, GO BIRTHS, GO BIRTHS, GO

TO 401) TO 401) TO 401)DON'T KNOW . . . . . . 8 DON'T KNOW . . . . . . 8 DON'T KNOW . . . . . . 8

316 How many days ago did the fever start? DAYS AGO . DAYS AGO . DAYS AGO .

IF LESS THAN ONE DAY, DON'T KNOW . . . . . . 98 DON'T KNOW . . . . . . 98 DON'T KNOW . . . . . . 98 WRITE '00'.

317 Did you seek advice or treatment YES . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . 1for the fever from any source? NO . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . 2

(SKIP TO 320) (SKIP TO 320) (SKIP TO 320)

318 Where did you get treatment PUBLIC SECTOR PUBLIC SECTOR PUBLIC SECTORfrom? GOVT HOSPITAL A GOVT HOSPITAL A GOVT HOSPITAL A

GOVT HEALTH GOVT HEALTH GOVT HEALTH Anywhere else? CENTER . . . . . . B CENTER . . . . . . B CENTER . . . . . . B

GOVT HEALTH GOVT HEALTH GOVT HEALTH PROBE TO IDENTIFY EACH POST . . . . . . . . C POST . . . . . . . . C POST . . . . . . . . CTYPE OF SOURCE AND MOBILE CLINIC . D MOBILE CLINIC . D MOBILE CLINIC . D

ROLE MODEL ROLE MODEL ROLE MODELCIRCLE THE APPROPRIATE CAREGIVER/ CAREGIVER/ CAREGIVER/CODE(S). COMMUNITY COMMUNITY COMMUNITY

WORKER . . . E WORKER . . . E WORKER . . . EOTHER PUBLIC OTHER PUBLIC OTHER PUBLIC

F F FIF UNABLE TO DETERMINE (SPECIFY) (SPECIFY) (SPECIFY)IF A HOSPITAL, HEALTH CENTER, OR CLINIC IS PRIVATE MEDICAL PRIVATE MEDICAL PRIVATE MEDICALPUBLIC OR PRIVATE SECTOR SECTOR SECTORMEDICAL, WRITE THE PVT. HOSPITAL/ PVT. HOSPITAL/ PVT. HOSPITAL/THE NAME OF THE PLACE. CLINIC . . . . . . . . G CLINIC . . . . . . . . G CLINIC . . . . . . . . G

PHARMACY . . . H PHARMACY . . . H PHARMACY . . . HCHEMIST/PMV . . . I CHEMIST/PMV . . . I CHEMIST/PMV . . . I

(NAME OF PLACE(S)) PVT DOCTOR . . . J PVT DOCTOR . . . J PVT DOCTOR . . . JMOBILE CLINIC . K MOBILE CLINIC . K MOBILE CLINIC . KOTHER PRIVATE OTHER PRIVATE OTHER PRIVATE

(NAME OF PLACE(S)) L L L(SPECIFY) (SPECIFY) (SPECIFY)

OTHER SOURCE OTHER SOURCE OTHER SOURCE(NAME OF PLACE(S)) SHOP . . . . . . . . . . M SHOP . . . . . . . . . . M SHOP . . . . . . . . . . M

TRADITIONAL TRADITIONAL TRADITIONALPRACTITIONER N PRACTITIONER N PRACTITIONER N

DRUG HAWKER . O DRUG HAWKER . O DRUG HAWKER . O

OTHER X OTHER X OTHER X(SPECIFY) (SPECIFY) (SPECIFY)

118 | Appendix E

Page 133: Nigeria Malaria Indicator Survey [MIS8]

LAST BIRTH NEXT-TO-LAST BIRTH SECOND-FROM-LAST BIRTH

NO. QUESTIONS AND FILTERS NAME _________________ NAME _________________ NAME _________________

319 How many days after the fever began did you first seek treatmentfor (NAME)?

DAYS . . . . . . DAYS . . . . . . DAYS . . . . . . IF SAME DAY, RECORD '00'.

320 At any time during the illness, YES . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . 1did (NAME) have a drop of blood NO . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . 2taken from his/her finger or heel DON'T KNOW . . . . . . 8 DON'T KNOW . . . . . . 8 DON'T KNOW . . . . . . 8for testing?

321 At any time during the illness, did YES . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . 1 YES . . . . . . . . . . . . . . 1(NAME) take any drugs for the NO . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . 2 NO . . . . . . . . . . . . . . 2illness? (SKIP TO 323) (SKIP TO 323) (SKIP TO 323)

322 What drugs did (NAME) take? ANTIMALARIAL DRUGS ANTIMALARIAL DRUGS ANTIMALARIAL DRUGSSP/FANSIDAR/ SP/FANSIDAR/ SP/FANSIDAR/

Any other drugs? AMALAR/ AMALAR/ AMALAR/MALOXINE . . . A MALOXINE . . . A MALOXINE . . . A

RECORD ALL MENTIONED. CHLOROQUINE . B CHLOROQUINE . B CHLOROQUINE . BAMODIAQUINE . C AMODIAQUINE . C AMODIAQUINE . C

ASK TO SEE DRUG(S) IF TYPE QUININE . . . . . . . . D QUININE . . . . . . . . D QUININE . . . . . . . . DOF DRUG IS NOT KNOWN. ARTEMISININ ARTEMISININ ARTEMISININIF TYPE OF DRUG IS STIL NOT COMBINATION COMBINATION COMBINATIONDETERMINED, SHOW TYPICAL THERAPY (ACT) . E THERAPY (ACT) . E THERAPY (ACT) . EANTIMALARIAL DRUGS TO OTHER ANTI- OTHER ANTI- OTHER ANTI-RESPONDENT. MALARIAL MALARIAL MALARIAL

. . . F . . . F . . . F(SPECIFY) (SPECIFY) (SPECIFY)

ANTIBIOTIC DRUGS ANTIBIOTIC DRUGS ANTIBIOTIC DRUGSPILL/SYRUP . . . G PILL/SYRUP . . . G PILL/SYRUP . . . GINJECTION . . . H INJECTION . . . H INJECTION . . . H

OTHER DRUGS OTHER DRUGS OTHER DRUGSOTHER DRUGS OTHER DRUGS OTHER DRUGSPARACETAMOL . I PARACETAMOL . I PARACETAMOL . IASPIRIN . . . . . . . . J ASPIRIN . . . . . . . . J ASPIRIN . . . . . . . . JACETA- ACETA- ACETA-

MINOPHEN . . . K MINOPHEN . . . K MINOPHEN . . . KIBUPROFEN . . . L IBUPROFEN . . . L IBUPROFEN . . . L

OTHER X OTHER X OTHER X(SPECIFY) (SPECIFY) (SPECIFY)

DON'T KNOW . . . . . . Z DON'T KNOW . . . . . . Z DON'T KNOW . . . . . . Z

323 CHECK 322: YES NO YES NO YES NO ANY CODE A-F CIRCLED?

(GO BACK TO 315 (GO BACK TO 315 (GO TO 315 IN FIRST IN NEXT COLUMN; IN NEXT COLUMN; COLUMN OF NEW

OR, IF NO MORE OR, IF NO MORE QUESTIONNAIRE; BIRTHS, GO TO 401) BIRTHS, GO TO 401) OR, IF NO MORE

BIRTHS, GO TO 401)

| 119Appendix E

Page 134: Nigeria Malaria Indicator Survey [MIS8]

LAST BIRTH NEXT-TO-LAST BIRTH SECOND-FROM-LAST BIRTH

NO. QUESTIONS AND FILTERS NAME _________________ NAME _________________ NAME _________________

324 CHECK 322: CODE 'A' CODE 'A' CODE 'A' CODE 'A' CODE 'A' CODE 'A'CIRCLED NOT CIRCLED NOT CIRCLED NOT

SP/FANSIDAR ('A') GIVEN CIRCLED CIRCLED CIRCLED

(SKIP TO 327) (SKIP TO 327) (SKIP TO 327)

325 How long after the fever SAME DAY . . . . . 0 SAME DAY . . . . . 0 SAME DAY . . . . . 0started did (NAME) first take NEXT DAY . . . . . 1 NEXT DAY . . . . . 1 NEXT DAY . . . . . 1SP/Fansidar? TWO DAYS AFTER TWO DAYS AFTER TWO DAYS AFTER

FEVER . . . . . 2 FEVER . . . . . 2 FEVER . . . . . 2THREE DAYS AFTER THREE DAYS AFTER THREE DAYS AFTER

FEVER . . . . . 3 FEVER . . . . . 3 FEVER . . . . . 3FOUR OR MORE DAYS FOUR OR MORE DAYS FOUR OR MORE DAYS

AFTER FEVER . . 4 AFTER FEVER . . 4 AFTER FEVER . . 4DON'T KNOW . . . 8 DON'T KNOW . . . 8 DON'T KNOW . . . 8

326 For how many days did (NAME)take the SP/Fansidar? DAYS . . . . . . . . . . DAYS . . . . . . . . . . DAYS . . . . . . . . . .

IF 7 DAYS OR MORE, WRITE '7'. DON'T KNOW . . . 8 DON'T KNOW . . . 8 DON'T KNOW . . . 8

327 CHECK 322: CODE 'B' CODE 'B' CODE 'B' CODE 'B' CODE 'B' CODE 'B'CIRCLED NOT CIRCLED NOT CIRCLED NOT

CHLOROQUINE ('B') GIVEN CIRCLED CIRCLED CIRCLED

(SKIP TO 330) (SKIP TO 330) (SKIP TO 330)

328 How long after the fever SAME DAY . . . . . 0 SAME DAY . . . . . 0 SAME DAY . . . . . 0started did (NAME) first take NEXT DAY . . . . . 1 NEXT DAY . . . . . 1 NEXT DAY . . . . . 1chloroquine? TWO DAYS AFTER TWO DAYS AFTER TWO DAYS AFTER

FEVER . . . . . 2 FEVER . . . . . 2 FEVER . . . . . 2THREE DAYS AFTER THREE DAYS AFTER THREE DAYS AFTER

FEVER . . . . . 3 FEVER . . . . . 3 FEVER . . . . . 3FOUR OR MORE DAYS FOUR OR MORE DAYS FOUR OR MORE DAYS

AFTER FEVER . . 4 AFTER FEVER . . 4 AFTER FEVER . . 4DON'T KNOW . . . 8 DON'T KNOW . . . 8 DON'T KNOW . . . 8

329 For how many days did (NAME)take the chloroquine? DAYS . . . . . . . . . . DAYS . . . . . . . . . . DAYS . . . . . . . . . .

IF 7 DAYS OR MORE, WRITE '7'. DON'T KNOW . . . 8 DON'T KNOW . . . 8 DON'T KNOW . . . 8

330 CHECK 322: CODE 'C' CODE 'C' CODE 'C' CODE 'C' CODE 'C' CODE 'C'CIRCLED NOT CIRCLED NOT CIRCLED NOT

AMODIAQUINE ('C') GIVEN CIRCLED CIRCLED CIRCLED

(SKIP TO 333) (SKIP TO 333) (SKIP TO 333)

331 How long after the fever SAME DAY . . . . . 0 SAME DAY . . . . . 0 SAME DAY . . . . . 0started did (NAME) first take NEXT DAY . . . . . 1 NEXT DAY . . . . . 1 NEXT DAY . . . . . 1amodiaquine? TWO DAYS AFTER TWO DAYS AFTER TWO DAYS AFTER

FEVER . . . . . 2 FEVER . . . . . 2 FEVER . . . . . 2THREE DAYS AFTER THREE DAYS AFTER THREE DAYS AFTER

FEVER . . . . . 3 FEVER . . . . . 3 FEVER . . . . . 3FOUR OR MORE DAYS FOUR OR MORE DAYS FOUR OR MORE DAYS

AFTER FEVER . . 4 AFTER FEVER . . 4 AFTER FEVER . . 4DON'T KNOW . . . 8 DON'T KNOW . . . 8 DON'T KNOW . . . 8

332 For how many days did (NAME)take the amodiaquine? DAYS . . . . . . . . . . DAYS . . . . . . . . . . DAYS . . . . . . . . . .

IF 7 DAYS OR MORE, WRITE '7'. DON'T KNOW . . . 8 DON'T KNOW . . . 8 DON'T KNOW . . . 8

120 | Appendix E

Page 135: Nigeria Malaria Indicator Survey [MIS8]

LAST BIRTH NEXT-TO-LAST BIRTH SECOND-FROM-LAST BIRTH

NO. QUESTIONS AND FILTERS NAME _________________ NAME _________________ NAME _________________

333 CHECK 322: CODE 'D' CODE 'D' CODE 'D' CODE 'D' CODE 'D' CODE 'D'CIRCLED NOT CIRCLED NOT CIRCLED NOT

QUININE ('D') GIVEN CIRCLED CIRCLED CIRCLED

(SKIP TO 336) (SKIP TO 336) (SKIP TO 336)

334 How long after the fever SAME DAY . . . . . 0 SAME DAY . . . . . 0 SAME DAY . . . . . 0started did (NAME) first take NEXT DAY . . . . . 1 NEXT DAY . . . . . 1 NEXT DAY . . . . . 1quinine? TWO DAYS AFTER TWO DAYS AFTER TWO DAYS AFTER

FEVER . . . . . 2 FEVER . . . . . 2 FEVER . . . . . 2THREE DAYS AFTER THREE DAYS AFTER THREE DAYS AFTER

FEVER . . . . . 3 FEVER . . . . . 3 FEVER . . . . . 3FOUR OR MORE DAYS FOUR OR MORE DAYS FOUR OR MORE DAYS

AFTER FEVER . . 4 AFTER FEVER . . 4 AFTER FEVER . . 4DON'T KNOW . . . 8 DON'T KNOW . . . 8 DON'T KNOW . . . 8

335 For how many days did (NAME)take the quinine? DAYS . . . . . . . . . . DAYS . . . . . . . . . . DAYS . . . . . . . . . .

IF 7 DAYS OR MORE, WRITE '7'. DON'T KNOW . . . 8 DON'T KNOW . . . 8 DON'T KNOW . . . 8

336 CHECK 322: CODE 'E' CODE 'E' CODE 'E' CODE 'E' CODE 'E' CODE 'E'CIRCLED NOT CIRCLED NOT CIRCLED NOT

ACT ('E') GIVEN CIRCLED CIRCLED CIRCLED

(SKIP TO 339) (SKIP TO 339) (SKIP TO 339)

337 How long after the fever SAME DAY . . . . . 0 SAME DAY . . . . . 0 SAME DAY . . . . . 0started did (NAME) first take NEXT DAY . . . . . 1 NEXT DAY . . . . . 1 NEXT DAY . . . . . 1ACT? TWO DAYS AFTER TWO DAYS AFTER TWO DAYS AFTER

FEVER . . . . . 2 FEVER . . . . . 2 FEVER . . . . . 2THREE DAYS AFTER THREE DAYS AFTER THREE DAYS AFTERTHREE DAYS AFTER THREE DAYS AFTER THREE DAYS AFTER

FEVER . . . . . 3 FEVER . . . . . 3 FEVER . . . . . 3FOUR OR MORE DAYS FOUR OR MORE DAYS FOUR OR MORE DAYS

AFTER FEVER . . 4 AFTER FEVER . . 4 AFTER FEVER . . 4DON'T KNOW . . . 8 DON'T KNOW . . . 8 DON'T KNOW . . . 8

338 For how many days did (NAME)take the ACT? DAYS . . . . . . . . . . DAYS . . . . . . . . . . DAYS . . . . . . . . . .

IF 7 DAYS OR MORE, WRITE '7'. DON'T KNOW . . . 8 DON'T KNOW . . . 8 DON'T KNOW . . . 8

339 CHECK 322: CODE 'F' CODE 'F' CODE 'F' CODE 'F' CODE 'F' CODE 'F'CIRCLED NOT CIRCLED NOT CIRCLED NOT

OTHER ANTIMALARIAL ('F') CIRCLED CIRCLED CIRCLEDGIVEN

(SKIP TO 342) (SKIP TO 342) (SKIP TO 342)

340 How long after the fever SAME DAY . . . . . 0 SAME DAY . . . . . 0 SAME DAY . . . . . 0started did (NAME) first take NEXT DAY . . . . . 1 NEXT DAY . . . . . 1 NEXT DAY . . . . . 1the (OTHER ANTIMALARIAL)? TWO DAYS AFTER TWO DAYS AFTER TWO DAYS AFTER

FEVER . . . . . 2 FEVER . . . . . 2 FEVER . . . . . 2THREE DAYS AFTER THREE DAYS AFTER THREE DAYS AFTER

FEVER . . . . . 3 FEVER . . . . . 3 FEVER . . . . . 3FOUR OR MORE DAYS FOUR OR MORE DAYS FOUR OR MORE DAYS

AFTER FEVER . . 4 AFTER FEVER . . 4 AFTER FEVER . . 4DON'T KNOW . . . 8 DON'T KNOW . . . 8 DON'T KNOW . . . 8

341 For how many days did (NAME)take the (OTHER ANTIMALARIAL)? DAYS . . . . . . . . . . DAYS . . . . . . . . . . DAYS . . . . . . . . . .

IF 7 DAYS OR MORE, WRITE '7'. DON'T KNOW . . . 8 DON'T KNOW . . . 8 DON'T KNOW . . . 8

342 GO BACK TO 315 IN GO BACK TO 315 IN GO TO 315 IN 1st COLUMNNEXT COLUMN; OR, IF NEXT COLUMN; OR, IF OF NEW QUESTIONNAIRE;NO MORE BIRTHS, GO NO MORE BIRTHS, GO OR, IF NO MORE BIRTHS,TO 401. TO 401. TO 401.

| 121Appendix E

Page 136: Nigeria Malaria Indicator Survey [MIS8]

SECTION 4. KNOWLEDGE OF MALARIA

NO. QUESTIONS AND FILTERS CODING CATEGORIES SKIP

401 Have you ever heard of an illness called malaria? YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 414

402 What are some things that can happen to you when you have FEVER . . . . . . . . . . . . . . . . . . . . . . . . Amalaria? CHILLS/SHIVERING . . . . . . . . . . . . . . . . B

HEADACHE . . . . . . . . . . . . . . . . . . . . . . CCIRCLE ALL MENTIONED. JOINT PAIN . . . . . . . . . . . . . . . . . . . . . . D

POOR APPETITE . . . . . . . . . . . . . . . . . . EVOMITTING . . . . . . . . . . . . . . . . . . . . FCONVULSION . . . . . . . . . . . . . . . . . . . . G

OTHER X(SPECIFY)

DON'T KNOW . . . . . . . . . . . . . . . . . . . . Z

403 Who is most likely to get a serious case of malaria? CHILDREN . . . . . . . . . . . . . . . . . . . . . . APREGNANT WOMEN . . . . . . . . . . . . . . B

CIRCLE ALL MENTIONED. ADULTS . . . . . . . . . . . . . . . . . . . . . . CELDERLY . . . . . . . . . . . . . . . . . . . . . . DEVERYONE . . . . . . . . . . . . . . . . . . . . . . EDON'T KNOW . . . . . . . . . . . . . . . . . . . . Z

404 What causes malaria? MOSQUITOES . . . . . . . . . . . . . . . . . . . . ASTAGNANT WATER . . . . . . . . . . . . . . B

CIRCLE ALL MENTIONED. DIRTY SURROUNDINGS . . . . . . . . . . . . CBEER . . . . . . . . . . . . . . . . . . . . . . . . . . DCERTAIN FOODS . . . . . . . . . . . . . . . . E

OTHER X(SPECIFY)

DON'T KNOW . . . . . . . . . . . . . . . . . . . . Z

405 Are there ways to avoid getting malaria? YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 408

406 What are the ways to avoid getting malaria? SLEEP UNDER MOSQUITO NET . . . . . ASLEEP UNDER AN ITN/LLIN . . . . . . . . . . BUSE INSECTICIDE SPRAY CUSE INSECTICIDE SPRAY . . . . . . . . . . C

CIRCLE ALL MENTIONED. USE MOSQUITO COILS . . . . . . . . . . . . DKEEP DOORS AND WINDOWS

CLOSED . . . . . . . . . . . . . . . . . . . . . . EUSE INSECT REPELLANT . . . . . . . . . . FKEEP SURROUNDINGS CLEAN . . . . . GCUT THE GRASS . . . . . . . . . . . . . . . . HELILMINATE STAGNANT WATER

AROUND LIVING AREA . . . . . . . . . . I

OTHER X(SPECIFY)

DON'T KNOW . . . . . . . . . . . . . . . . . . . . Z

407 What can a pregnant woman do to prevent malaria? SLEEP UNDER MOSQUITO NET . . . . . ASLEEP UNDER AN ITN/LLIN . . . . . . . . . . B

CIRCLE ALL MENTIONED. KEEP ENVIRONMENT CLEAN . . . . . . . CTAKE SP/FANSIDAR GIVEN DURING

ANTENATAL CARE . . . . . . . . . . . . . . DTAKE DARAPRIM TABLETS (SUNDAY-

SUNDAY MEDICINE) . . . . . . . . . . . . E

OTHER X(SPECIFY)

DON'T KNOW . . . . . . . . . . . . . . . . . . . . Z

408 Can malaria be treated? YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2DON'T KNOW . . . . . . . . . . . . . . . . . . . . 8 411

409 What drugs are used to treat adults with malaria ? SP/FANSIDAR . . . . . . . . . . . . . . . . . . . . ACHLOROQUINE . . . . . . . . . . . . . . . . . . B

CIRCLE ALL MENTIONED. QUININE . . . . . . . . . . . . . . . . . . . . . . . . CACT . . . . . . . . . . . . . . . . . . . . . . . . . . . . DASPIRIN, PANADOL, PARACETAMOL E

OTHER X(SPECIFY)

DON'T KNOW . . . . . . . . . . . . . . . . . . . . Z

122 | Appendix E

Page 137: Nigeria Malaria Indicator Survey [MIS8]

410 What drugs are used to treat children with malaria? SP/FANSIDAR . . . . . . . . . . . . . . . . . . . . ACHLOROQUINE . . . . . . . . . . . . . . . . . . B

CIRCLE ALL MENTIONED. QUININE . . . . . . . . . . . . . . . . . . . . . . . . CACT . . . . . . . . . . . . . . . . . . . . . . . . . . . . DASPIRIN/PANADOL/PARACETAMOL . E

OTHER X(SPECIFY)

DON'T KNOW . . . . . . . . . . . . . . . . . . . . Z

411 In the past 4 weeks, have you seen or heard any YES . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1messages about malaria? NO . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 414

BILLBOARDS412 What messages about malaria have you seen or heard? MOSQUITO BACKING BABY . . . . . . . A

MAN PLAYING DRAFTS WITHCIRCLE ALL MENTIONED. MOSQUITO . . . . . . . . . . . . . . . . . . . . B

MOSQUITO APPEARS IN FAMILYPICTURE . . . . . . . . . . . . . . . . . . . . . . C

WOMAN WEARING MOQUITO NET ASCLOTHES GOING TO MARKET . . . D

TELEVISIONFRIENDS PLAYING DRAFTS, WHERE

SMALL FRIEND SLAPS THEBIG FRIEND (MR. CALYPSO) . . . . . E

MOSQUITO TAKES CHILD AWAYWHILE FAMILY IS SLEEPING . . . . . F

WOMAN WEARING MOQUITO NET ASCLOTHES GOING TO MARKET . . . G

WOMAN TELLS HER HUSBAND "YOUDON BECOME DOCTOR AND YOUSABI BELLE PASS ME…I PITYMALARIA" . . . . . . . . . . . . . . . . . . . . H

THE KING GETS SLAPPED . . . . . . . . . . ILONART VERSUS MALARIA . . . . . J

RADIO . . . . . . . . . . . . . . . . . . . . . . . . . . K

OTHER X(SPECIFY)( )

DON'T KNOW . . . . . . . . . . . . . . . . . . . . Z

413 Where did you hear or see these messages? RADIO . . . . . . . . . . . . . . . . . . . . . . . . . . ATELEVISION . . . . . . . . . . . . . . . . . . . . B

CIRCLE ALL MENTIONED. COMMUNITY HEALTH EXTENSION WORKER (CHEW) . . . . . . . . . . . . . . C

COMMUNITY ORIENTED RESOURCEPERSON (CORP) . . . . . . . . . . . . . . . . D

ROLE MODEL CAREGIVER/COMMUNITY WORKER . . . . . . . . . . E

MOSQUE/CHURCH . . . . . . . . . . . . . . . . FTOWN ANNOUNCER . . . . . . . . . . . . . . GCOMMUNITY EVENT . . . . . . . . . . . . . . HBILLBOARD . . . . . . . . . . . . . . . . . . . . IPOSTER . . . . . . . . . . . . . . . . . . . . . . . . JT-SHIRT . . . . . . . . . . . . . . . . . . . . . . . . KLEAFLET/FACT SHEET/ BROCHURE . LRELATIVE/FRIEND/NEIGHBOURSCHOOL . . . . . . . . . . . . . . . . . . . . . . . . M

OTHER X(SPECIFY)

414 RECORD THE TIME.HOUR . . . . . . . . . . . . . . . . . . . .

MINUTES . . . . . . . . . . . . . . . . . .

| 123Appendix E